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Published by BUENA VISTA PUBLISHING for Florida Water Resources Journal Inc. President: Richard Anderson (FSAWWA) Peace River Manasota Regional Water Supply Authority Vice President: Jamey Wallace (FWEA) Jacobs Treasurer: Rim Bishop (FWPCOA) Seacoast Utility Authority Secretary: Mish Clark Mish Agency
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Membership Questions FSAWWA: Casey Cumiskey – 407-979-4806 or fsawwa.casey@gmail.com FWEA: Karen Wallace, Executive Manager – 407-574-3318 FWPCOA: Darin Bishop – 561-840-0340
Training Questions FSAWWA: Donna Metherall – 407-979-4805 or fsawwa.donna@gmail.com FWPCOA: Shirley Reaves – 321-383-9690
For Other Information DEP Operator Certification: Ron McCulley – 850-245-7500 FSAWWA: Peggy Guingona – 407-979-4820 Florida Water Resources Conference: 407-363-7751 FWPCOA Operators Helping Operators: John Lang – 772-559-0722, e-mail – oho@fwpcoa.org FWEA: Karen Wallace, Executive Manager – 407-574-3318
Websites Florida Water Resources Journal: www.fwrj.com FWPCOA: www.fwpcoa.org FSAWWA: www.fsawwa.org FWEA: www.fwea.org and www.fweauc.org Florida Water Resources Conference: www.fwrc.org Throughout this issue trademark names are used. Rather than place a trademark symbol in every occurrence of a trademarked name, we state we are using the names only in an editorial fashion, and to the benefit of the trademark owner, with no intention of infringement of the trademark. None of the material in this publication necessarily reflects the opinions of the sponsoring organizations. All correspondence received is the property of the Florida Water Resources Journal and is subject to editing. Names are withheld in published letters only for extraordinary reasons. Authors agree to indemnify, defend and hold harmless the Florida Water Resources Journal Inc. (FWRJ), its officers, affiliates, directors, advisors, members, representatives, and agents from any and all losses, expenses, third-party claims, liability, damages and costs (including, but not limited to, attorneys’ fees) arising from authors’ infringement of any intellectual property, copyright or trademark, or other right of any person, as applicable under the laws of the State of Florida.
2022 Florida Water Resources Conference Review 14 19 20 21 22 26
28 Students and Young Professionals Activities 30 Competitions 34 Florida Select Society of Sanitary Sludge Shovelers 36 Awards
Conference Highlights—Mish Clark Facility Tour Exhibition Workshops and Technical Sessions Operators Showcase Women of Water Forum
News and Features 4 Fish Passage Program to Receive Federal Funding 49 In Memoriam: William Palan Allman 50 Stormwater Management Planning: Does it Matter?—Erica Benson 76 What is the Operators’ Initiative and Why is it Important?—Steve Soltau 81 News Beat
Technical Articles 10 Addressing Per- and Poly-Fluoroalkyl Substances Through Source Water Assessments and Advanced Treatment Using Powdered Activated Carbon, Granular Activated Carbon, and Ion Exchange— Samantha Black, Katie Walker, Gwen WoodsChabane, Pete D’Adamo, and Dell Harney 44 Emerging Renewal Technologies for Pressurized Pipelines—Steve Soldati 62 Three Ion Exchange Technologies, One Tough Decision for Florida Utilities—Tyler Smith, Chris Reinbold, Vinnie Hart, and Larry Elliott
54 Test Yourself—Donna Kaluzniak 60 Let’s Talk Safety: Jackhammer Safety 61 Reader Profile— Felicity Appel 68 C Factor—Patrick “Murf” Murphy 70 FWEA Chapter Corner: South Chapter Meeting: Miami-Dade Water and Sewer Department Builds for the Future—Melody Gonzalez 72 FSAWWA Speaking Out—Emilie Moore
Departments 83 86
Classifieds Display Advertiser Index
Education and Training 8 CEU Challenge 56 FSAWWA Fall Conference General Information 57 FSAWWA Fall Conference Exhibit Registration 58 FSAWWA 2022 Water Distribution System Awards 59 FSAWWA Fall Conference Competitions 75 FWPCOA Training Calendar 77 FSAWWA 2022 Water Conservation Awards for Excellence 79 TREEO Center Training
Columns 6
FWEA Focus—Sondra W. Lee
Volume 73
ON THE COVER: The 2022 Florida Water Resources Conference, held in Daytona Beach, came roaring back after a three-year hiatus due to the pandemic. Full coverage of the conference begins on page 14.
July 2022
Number 7
Florida Water Resources Journal, USPS 069-770, ISSN 0896-1794, is published monthly by Florida Water Resources Journal, Inc., 1402 Emerald Lakes Drive, Clermont, FL 34711, on behalf of the Florida Water & Pollution Control Operator’s Association, Inc.; Florida Section, American Water Works Association; and the Florida Water Environment Association. Members of all three associations receive the publication as a service of their association; $6 of membership dues support the Journal. Subscriptions are otherwise available within the U.S. for $24 per year. Periodicals postage paid at Clermont, FL and additional offices.
POSTMASTER: send address changes to Florida Water Resources Journal, 1402 Emerald Lakes Drive, Clermont, FL 34711
Florida Water Resources Journal • July 2022
3
Fish Passage Program to Receive Federal Funding The U.S. Department of the Interior has announced that 40 fish passage projects in 23 states and Puerto Rico will receive a total of nearly $38 million in Fiscal Year 2022 funding from President Biden’s Bipartisan Infrastructure Law. With a total of $200 million in investments in the National Fish Passage Program over the next five years, the law will bolster efforts to address outdated, unsafe, or obsolete dams, culverts, levees, and other barriers fragmenting rivers and streams in the United States, which will help restore fish passages and aquatic connectivity. The National Fish Passage Program, facilitated by the U.S. Fish and Wildlife Service, supports aquatic ecosystem restoration projects and restores free-flowing waters, allowing for enhanced fish migration and protecting communities from flooding. “Across the country, millions of barriers block fish migration and put communities at higher risk of flooding,” said Deb Haaland, department secretary. “President Biden’s Bipartisan Infrastructure Law provides a once-in-a-generation opportunity to invest in our nation’s rivers, streams, and communities and help restore habitat connectivity for aquatic species around the country.” Several of the projects receiving funding will directly address issues related to climate change and serve disadvantaged communities, while also spanning the U.S. geographically and addressing a wide array of diverse aquatic resource issues. As part of the announcement, Shannon Estenoz, assistant secretary for fish and wildlife, and Martha Williams, service director, visited the Albright Power Station
Dam near Albright, W.V., which is among the recipients of the new funding. During the visit, the leaders met with staff and partners to discuss the dam’s removal and the positive impact it will have on neighboring communities. Removing the obsolete dam, built in 1952 on the Cheat River, will help increase public access and recreational opportunities and improve public safety. Engineering is underway and removal is planned for 2023. “Aquatic restoration projects are important examples of how naturebased projects can enable ecosystems and communities to be more resilient to climate change,” said Williams. “In addition to providing benefits for fish and aquatic species, the National Fish Passage Program’s work to restore degraded and fragmented aquatic habitats decreases public safety hazards, improves infrastructure resilience, creates jobs, and stimulates the local economy.”
4 July 2022 • Florida Water Resources Journal
The program has decades of proven experience implementing infrastructure projects, with partners to improve the health of the nation’s waterways, reconnect rivers, and improve climate resilience. The program provides financial, engineering, and planning assistance to communities, tribes, and landowners to help remove barriers and restore rivers for the benefit of fish and people. Since 1999, the program has worked with over 2,000 local communities, states, tribes, and private landowners to remove or bypass 3,202 barriers to fish passage and reopen access to 57,736 miles of upstream habitat and 193,783 acres of wetland habitat for fish and other animals. The rivers, streams, and coastal systems of North America once supported vast annual runs of fish, such as Atlantic salmon, American shad, alewife, blueback herring, and American eel. These species—and many others that include some at-risk species— depend on connected streams and highquality habitat to survive. During the past 200 years, many of these populations have decreased drastically. Across coastal Florida, dam removal and stream restoration projects will remove two dams and restore streams on the Apalachicola, Myakka, and Econlockhatchee rivers. The projects will benefit five federally listed mussel species, as well as Gulf sturgeon and the Florida manatee. For more information about the National Fish Passage Program and the 40 funded projects, visit the Fish Passage Program website at www.fws.gov/program/nationalS fish-passage.
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FWEA FOCUS
The Value of FWEA career and personally, are professional growth and connections.
Sondra W. Lee, P.E. President, FWEA
C
an you remember where you were when you first learned of FWEA? I first learned of the organization in 2002 and have noticed since then the great value that FWEA has brought me. The first 10 years of my career in engineering were mostly spent on private development projects and stormwater design, never crossing paths with FWEA. It was shortly after I had joined the City of Tallahassee’s water and sewer engineering team when, one morning, a coworker of mine, Donna Nichols, invited me along to visit some project sites. As noon approached, she turned into the parking lot of a consulting firm and casually said, “I need to stop at this office for a meeting; you can just come in with me.” It turned out to be a steering committee meeting of the Big Bend Chapter, which was planning a technical seminar for the Tallahassee area. I was assigned a small task, which eventually led to getting very involved with the chapter, and that has grown—20 years later—into taking on the role of serving as the president of FWEA.
Professional Growth Part of the mission of FWEA is to provide professional education opportunities. By attending conferences, seminars, and chapter luncheons, members and colleagues enhance their knowledge to help manage our water resources. In addition to these events, those who volunteer also have the opportunity to develop their project management and leadership skills. Running, or serving on, a committee, one will need to be organized, create and follow a schedule, look for and define priorities, and find ways to encourage others on the committee to keep moving with their tasks. Connections The other great benefit, or value, from joining FWEA is the personal connections from meeting others in the water industry. The FWEA
The Benefits of Involvement Over the years I have seen the value FWEA brings to our members, communities, and the overall profession. Two specific examples of how the organization can serve you, in both your
FWEA leadership development workshop dinner.
6 July 2022 • Florida Water Resources Journal
is a volunteer-driven organization where the volunteer opportunities bring together a wide array of colleagues at meetings and events. Often these are people that I would not have had the chance to interact with if not for FWEA. There have been many times I have picked up ideas and tips to better manage my work with the City of Tallahassee. There is just something about the synergy of meeting colleagues and sharing information about projects, funding, and staffing, and exchanging ideas while at inperson events (and occasionally during virtual meetings). From what I saw at the Florida Water Resources Conference in April, it appears to me that many of us were ready to connect again.
Take the First Step These are just a couple of examples of the value I see in being a member of FWEA. The FWEA board of directors will continue to strive to bring value to the membership over the next year, and for years to come. Be on the lookout for FWEA events taking place throughout the state. I encourage you to offer some assistance at just one event, or to help out with some behind-the-scenes task for your area chapter or on a committee of interest. You can find contact information for chapters and committees from the “Membership” drop down menu on the FWEA website at www.fwea.org. If anything, I hope that you consider attending an event, and invite someone else so they can discover the value that FWEA brings to the water industry. S
FWEA leadership development workshop planning session.
FWEA chapter event happy hour.
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Members of the Florida Water and Pollution Control Operators Association (FWPCOA) may earn continuing education units through the CEU Challenge! Answer the questions published on this page, based on the technical articles in this month’s issue. Circle the letter of each correct answer. There is only one correct answer to each question! Answer 80 percent of the questions on any article correctly to earn 0.1 CEU for your license. Retests are available. This month’s editorial theme is Stormwater Management and Emerging Technologies. Look above each set of questions to see if it is for water operators (DW), distribution system operators (DS), or wastewater operators (WW). Mail the completed page (or a photocopy) to: Florida Environmental Professionals Training, P.O. Box 33119, Palm Beach Gardens, Fla. 33420-3119. Enclose $15 for each set of questions you choose to answer (make checks payable to FWPCOA). You MUST be an FWPCOA member before you can submit your answers!
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Emerging Renewal Technologies for Pressurized Pipelines
Three Ion Exchange Technologies, One Tough Decision for Florida Utilities
Steve Soldati (Article 1: CEU = 0.DS/DW/WW02015403)
Tyler Smith, Chris Reinbold, Vinnie Hart, and Larry Elliott (Article 2: CEU = 0.1DS/DW/WW02015404)
1. W hich of the following is not specifically identified as a characteristic of fiber-reinforced polymer pipe? a. M ore structurally robust than all other alternatives b. F lexibility to adapt to unique pipe layouts c. W ell-suited to spot repairs d. T ypically used for larger pipelines 2. Guidance in selecting the best rehabilitation technique can be found in which of the following references? a. A STM 563.2 b. AWWA M28 c. A NSI 14006 d. ISO 9001 3. H ose lining a. d oes not require the continued support of the existing host pipe. b. r equires larger work zones than all other alternatives discussed. c. r equires long pipe laydown areas. d. r equires no resin curing.
1. M agnetic ion exchange is a fluidized bed process primarily developed to remove a. hardness. b. d issolved organic carbon. c. iron. d. a lkalinity. 2. W hich of the following is a disadvantage of fixed bed ion exchange treatment? a. Requires a large footprint for larger-capacity treatment systems b. Media must be regenerated more frequently c. Requires media that is less tolerant of chlorine in treating fouling d. Less effective in treating certain anaerobic ground waters 3. P revious suspended ion exchange (SIX) process studies have indicated that contact times up to ____________ will achieve adequate organics removal. a. 15 minutes b. 30 minutes c. 1 hour d. 90 minutes
4. T he replacement pipe created by the cured-inplace process a. i s a fully structural Class 4 solution. b. s ignificantly restricts flow capacity. c. i s more disruptive to local activity than most other solutions. d. i s the most expensive approach.
4. W hich of the ion exchange treatment processes discussed has the highest sulfate and bicarbonate competition? a. Fixed bed b. Magnetic ion exchange (MIEX) c. SIX d. It’s the same for MIEX and SIX
5. W hich of the following is the only rehabilitation option that can be used to expand pipeline carrying capacity? a. C ured-in-place b. H ose lining c. T ight-fit high-density polyethylene d. F usible polyvinyl chloride horizontal directional drill
5. R esin is separated from the water in the MIEX process by a. downstream sedimentation tanks. b. tube settlers or plates at the top of the reactor vessel. c. a built-in clarifier. d. cartridge filtration systems.
Addressing Per- and Poly-Fluoroalkyl Substances Through Source Water Assessments and Advanced Treatment Using Powdered Activated Carbon, Granular Activated Carbon, and Ion Exchange Samantha Black, Katie Walker, Gwen Woods-Chabane, Pete D’Adamo, and Dell Harney (Article 3: CEU = 0.1DS/DW/WW02015405) 1. In powdered activated carbon testing, there was _________ difference in per- and poly-fluoroalkyl substances (PFAS) removal between contact times of 1 minute and 30 minutes. a. negligible b. modest c. significant d. zero 2. W hich of the following forms of PFAS broke through granular activated carbon (GAC) and ion exchange (IX) columns most quickly? a. Short-chain b. Intermediate-chain c. Long-chain d. All broke through simultaneously 3. The U.S. Environmental Protection Agency (EPA) has established a lifetime health advisory level of _______ nanograms per liter for the sum of two PFAS. a. 30 b. 50 c. 70 d. 90 4. PFAS are persistent in the environment because of the strong chemical bond between _____________ and fluorine atoms. a. calcium b. magnesium c. carbon d. sulfide 5. A disadvantage of the city’s existing powdered activated carbon PFAS reduction system is that it a. does not reduce total organic carbon. b. does not reduce PFAS to a concentration that is less than the EPA standard. c. is too expensive and complex to install at full plant scale. d. increases plant residuals production.
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Florida Water Resources Journal • July 2022
9
F W R J
Addressing Per- and Poly-Fluoroalkyl Substances Through Source Water Assessments and Advanced Treatment Using Powdered Activated Carbon, Granular Activated Carbon, and Ion Exchange Samantha Black, Katie Walker, Gwen Woods-Chabane, Pete D’Adamo, and Dell Harney
P
er- and poly-fluoroalkyl substances (PFAS) are manmade fluorinated compounds of emerging concern in the water industry. The PFAS are persistent and stable in the environment due to the strong chemical bond between carbon and fluorine atoms. They have been used largely for their water- and oil-repellent properties in several applications, including consumer products and aqueous film-forming foam (AFFF) to fight petroleum-based fires. Communities in other countries and across the United States, including the City of Greensboro (city), N.C., have detected PFAS in drinking water supplies, typically at nanograms per liter (ng/L) concentrations. Elevated levels can be associated with facilities that use or manufacture these chemicals, such as airports (both domestic and military) and firefighting training facilities, as well as disposal sites of PFAS-contaminated wastes.
Treatment Plant (WTP), a 24-mil-gal-perday (mgd) conventional treatment facility. A schematic of the Mitchell WTP processes is provided in Figure 1. One of the city’s long-term goals is to provide a robust and flexible advanced treatment process capable of treating both emerging and regulated contaminants, and one family of emerging contaminants includes PFAS. The U.S. Environmental Protection Agency (EPA) has established a lifetime health advisory level (LHAL) of 70 ng/L for the sum of two PFAS: perfluorooctanesulfonic acid (PFOS) and perfluorooctanoic acid (PFOA). The PFOS and PFOA have been detected at trace concentrations in the city’s water supply at the Mitchell WTP, along with other PFAS. The LHALs for other PFAS are anticipated in mid-2022 and it’s expected that EPA will publish additional PFAS regulations in the next year.
City of Greensboro Mitchell Water Treatment Plant
Source Water Assessment
The city operates the Mitchell Water
During sampling, as part of the third Unregulated Contaminant Monitoring Rule
Samantha Black, Ph.D., P.E., is a water treatment process engineer and associate at HDR in West Palm Beach. Katie Walker, P.E., is a drinking water lead and associate at HDR in Raleigh, N.C. Gwen Woods-Chabane, Ph.D., is a drinking water quality lead and senior professional associate at HDR in Portland, Ore. Pete D’Adamo, Ph.D., P.E., is a water treatment technical lead and principal professional associate at HDR in Vienna, Va. Dell Harney is the water supply manager at the City of Greensboro in Greensboro, N.C.
(UCMR) from 2013 to 2015, some of the city’s water samples had combined levels of PFOS and PFOA that exceeded 100 ng/L. These findings led to a two-year watershed investigation to identify hotspots of PFAS contamination in the city’s raw water supply. This two-year study included monthly sampling of 30 sites throughout the city’s watershed, such as lakes that supply raw water to WTPs, streams that discharge into these lakes, ponds near potential
Figure 1. Simplified Process Schematic for the Mitchell Water Treatment Plant
10 July 2022 • Florida Water Resources Journal
PFOS + PFOA Concentration (ng/L)
Water Source: RWPS Doses: 10 mg/L, 20 mg/L, 30 mg/L Contact Time: 1 min 100 80 60 40 20 0
WC 800
35
Filtered Water
UC1240LD Aquasorb F23 Average Column Influent TOC
25 20 15 10 5 Total PFAS
PFOS+PFOA
Figure 4. Full-Scale Powdered Activated Carbon System Results
contamination sites, historical fire sites, and groundwater wells. Figure 2 presents a summary of individual PFAS species identified during the study from a small stream near where AFFF has been discharged and where manufacturing used to occur. A majority of the total PFAS concentration is comprised of PFOS, which is found in AFFF and manufacturing. One of the major benefits of the source water assessment was identifying potential contamination sites and collaborating with stakeholders, such as the local fire department, airport authority, and airport fire department, to reduce AFFF discharge and provide an open line of communication between stakeholders and the city. Since the completion of the source water assessment, PFAS levels detected by the city are well below the health advisory level.
Per- and Poly-Fluoroalkyl Substance Treatment One of the first steps needed to identify an optimal PFAS treatment process is an evaluation of technologies using site-specific
F400 Norit 400
1.6 1.2 0.8 0.4 0.0
0
WC 1000
2.0
30
TOC (mg/L as C)
Concentration (ng/L)
Raw Water
Sample
Figure 3. Powdered Activated Carbon Jar Testing Results
Figure 2. Per- and Poly-Fluoroalkyl Substances Speciation from a Stream Near Aqueous Film-Forming Foam Discharge Site Within the Vicinity of Historical Manufacturing Activities
40
RWPS No PAC 10 mg/L 20 mg/L 30 mg/L EPA Health Advisory Level
0
10,000
20,000 30,000 40,000 Bed Volumes Processed
50,000
Figure 5. Total Organic Carbon Results From Granular Activated Carbon Column Effluent
conditions. Research to date has shown that PFAS treatment effectiveness may vary, depending on the water source, pretreatment processes, and other operational conditions; therefore, a technology that works for one utility may not work for another. Additionally, treatment effectiveness is highly dependent on feed water quality. Bench and pilot testing under site-specific conditions prior to fullscale design of PFAS treatment systems is crucial to determine the most cost-effective treatment process.
Powdered Activated Carbon In 2018, the city and HDR evaluated the effectiveness of powdered activated carbon (PAC) for PFAS removal in a jar test setting. The purpose of testing PAC was to quickly implement a PFAS mitigation strategy that would lower PFOS and PFOA levels to below EPA’s LHAL. In 2018, the city installed a temporary PAC system to remove PFAS at its Mitchell WTP. The PAC system has demonstrated partial PFAS removal, but it’s messy and associated with operational challenges, including increased
residuals production. The city desires the design and construction of a permanent, fullscale advanced treatment process to provide permanent PFAS removal from its water supply. Prior to full-scale installation, two PAC types of evaluations during jar testing were used to determine the efficacy of PAC doses and contact times at various PFAS levels. Doses of 10, 20, and 30 milligrams per liter (mg/L), and contact times of one minute (simulating PAC addition at the Mitchell WTP) and 30 minutes (simulating addition at the raw water pump station) were evaluated. Figure 3 presents results of jar testing evaluating two PAC types (the Watercarb 800 and Watercarb 1000), both manufactured by Standard Purification. At the time of testing, the PFOS+PFOA level was 88 ng/L, which was slightly higher than the LHAL, and there was minimal difference between the two PAC types. The PFAS removal increased as PAC dose increased, but not linearly. Although not presented herein, there was negligible difference between a contact time of one minute and 30 minutes; therefore, the city Continued on page 12
Florida Water Resources Journal • July 2022
11
Continued from page 11 opted to install the system at the Mitchell WTP. Figure 4 presents results from full-scale PAC use using the Watercarb 800 product at a dose of 20 mg/L. At the time of sampling, the raw water total PFAS level was 34 ng/L and the PFOS+PFOA level was 20 ng/L. The PAC addition resulted in a 42 percent reduction of total PFAS and a 38 percent reduction of PFOS+PFOA.
time (EBCT), operation times, and column lengths, compared to pilot- or full-scale contactors. These conditions allow for much faster assessments of GAC and other media performance than equivalent testing with pilot- or full-scale evaluations. Toward the end of 2021, pilot testing commenced to determine the optimal full-scale treatment technology. The pilot protocol was developed based on results from laboratory bench-scale testing.
Rapid Small-Scale Column Testing
Granular Activated Carbon A suite of water quality parameters was monitored throughout bench-scale GAC testing. For brevity, only total organic carbon (TOC) and PFAS are presented herein. Figure 5 presents TOC results from the GAC columns. Four GAC media types were evaluated: S Calgon F400 S Jacobi Aquasorb F23 S Evoqua UC1240LD S Cabot Norit 400 The average influent TOC level measured in the drums was 1.3 mg/L, and ranged from
Evoqua UC1240LD
Calgon F-400
Evoqua UC1240LD
Calgon F-400
Jacobi Aquasorb F23
Cabot Norit GAC400
Jacobi Aquasorb F23
Cabot Norit GAC400
100% 80% 60% 40% 20% 0%
0
10,000
20,000 30,000 40,000 Bed Volumes Processed
50,000
Total PFAS Removal (%))
PFOS + PFOA Removal (%))
Rapid small-scale column testing (RSSCT) was performed to evaluate multiple granular activated carbon (GAC) media and ion exchange (IX) resin, in parallel with controlled laboratory conditions. The RSSCT is a proven, quick, and effective method for evaluating the treatability of PFAS using various GAC media prior to pilot testing and full-scale design. These are continuousflow column tests where reduced GAC or IX particle sizes result in experimental conditions, with shorter empty bed contact
100% 80% 60% 40% 20% 0%
0
10,000
PFBS
PFHxS
PFHpA
PFOS
PFHxA
100%
100%
80%
80% Removal (%)
Removal (%)
PFOA
60% 40% 20% 0% -20%
0
10,000
20,000
30,000
40,000
50,000
Bed Volumes Processed
Figure 8. Individual Per- and Poly-Fluoroalkyl Substances Removal Using Granular Activated Carbon (Evoqua UC1240LD)
12 July 2022 • Florida Water Resources Journal
20,000 30,000 40,000 Bed Volumes Processed
50,000
Figure 7. Total Per- and Poly-Fluoroalkyl Substances Removal Using Granular Activated Carbon
Figure 6. Perfluorooctanesulfonic Acid and Perfluorooctanoic Acid Removal Using Granular Activated Carbon
PFOS
1.2 to 1.8 mg/L. The GAC media removed roughly 0.5 mg/L up to about 10 to 15k bed volumes (BVs), but demonstrated little removal by 50k BVs. The Evoqua, Calgon, and Jacobi carbons provided slightly better TOC removal, compared to the Cabot carbon. Figure 6 presents a summary of PFOS+PFOA removal capabilities by the four GAC media. Removal of individual PFAS are provided for each media type in its respective subsection. Generally, the Jacobi Aquasorb F23 provided the best PFOS+PFOA removal relative to the other GAC media tested, although the Calgon F-400 media also provided adequate removal. The Calgon F-400 provided the best TOC removal, compared to the other GAC media. Figure 7 presents total PFAS removal as a function of BVs processed using the four different GAC media. Similar to the PFOS+PFOA results, the Jacobi and Calgon carbons performed better than the Evoqua and Cabot Norit carbons. The Calgon media provided superior total PFAS removal, compared to the Jacobi media, due to the higher removal of shortchain perfluorobutanoic acid (PFBA) and
PFOA
PFBS
PFHxS
PFHpA
PFHxA
60% 40% 20% 0%
0
10,000
20,000 30,000 40,000 Bed Volumes Processed
50,000
Figure 9. Individual Per- and Poly-Fluoroalkyl Substances Removal Using Granular Activated Carbon (Calgon F-400)
CalRes 2301 (A) PSR2 Plus Cl (A) PFA694E
CalRes 2301 (B) PSR2 Plus Cl (B) Average Column Influent TOC
Total PFAS Removal (%)
TOC (mg/L as C)
2.0 1.6 1.2 0.8 0.4 0.0
0
20,000
40,000 60,000 80,000 Bed Volumes Processed
Figure 10. Total Activated Carbon Results from Ion Exchange Column Effluent
carboxylic acid (PFOA, perfluoroheptanoic acid [PFHpA], perfluorohexanoic acid [PFHxA]) species. Figure 8 and Figure 9 present individual PFAS removal as a function of BVs for the Evoqua UC1240LD and Calgon F-400 media, respectively. As is typical for adsorption column testing, shorter-chain PFAS broke through into column effluent sooner than longer-chain species, and sulfonic acid species were removed more effectively than carboxylic acid counterparts. As described previously, the Calgon F-400 and Jacobi Aquasorb F23 performed the best with respect to PFAS removal. The F-400 performed best overall (the highest overall removal of the six PFAS), while the Aquasorb F23 demonstrated superior retention for PFOS, making it an ideal GAC if only PFOA and PFOS are of concern for removal. The PFOS and perfluorohexanesulfonic acid (PFHxS), the two PFAS that comprise a majority of the total PFAS concentration in the city’s water supply, broke through the columns slower than alternative PFAS. Ion Exchange The IX RSSCTs occurred in parallel to GAC media testing. Similarly to the GAC results, a suite of water quality parameters was monitored throughout bench-scale GAC testing. For brevity, only TOC and PFAS are presented herein. Figure 10 presents TOC results from the IX columns. The same influent water for the GAC columns was used for the IX columns, with the average influent TOC level measured as 1.3 mg/L and ranging from 1.2 to 1.8 mg/L. The IX resins removed 0.2 to 0.3 mg/L of TOC (up to about 40k BVs) and had minimal removal by 100k BVs. This is likely due to the PFAS selectivity of IX resins. The PFOS+PFOA figures are not presented since they were below detection
100,000
100%
Calgon CalRes 2301 (A) Evoqua DOWEX PSR2 Plus CI (A) Purolite Purofine PFA694E
Calgon CalRes 2301 (B) Evoqua DOWEX PSR2 Plus CI (B)
98% 96% 94% 92% 90%
0
20,000
40,000 60,000 Bed Volumes Processed
80,000
100,000
Figure 11. Per- and Poly-Fluoroalkyl Substances Removal Using Ion Exchange
limits in almost all IX column effluent samples, even after reaching 100,000 BVs in the columns. Using RSSCT for IX evaluations is not as refined as RSSCT for GAC studies; therefore, it’s important to interpret the data with caution and remember that RSSCT is used for comparative purposes only, not for fullscale design, and piloting will determine the optimal PFAS treatment options. Three types of resin were evaluated: S Calgon CalRes 2301 S Evoqua DOWEX PSR2 Plus S Purolite PurofinePFA694E The Calgon and Evoqua resins were evaluated in duplicate columns. Figure 11 presents total PFAS removal as a function of BVs for the five IX columns. It’s important to note that the Y-axis was modified to show 90 to 100 percent removal, since total PFAS removal for each of the resins was relatively high. In general, the Calgon and Evoqua resins outperformed the Purolite resin, although each of the resins provided greater PFAS removal, compared to GAC media. While IX resin often provides greater PFAS removal than GAC media and requires less-frequent change-outs, it’s important to note that IX resin is more costly than GAC media and provides limited removal of other constituents, such as TOC.
The top two best-performing GAC media and IX resin are currently being evaluated at the pilot scale. The IX resin provided better PFAS removal compared to GAC at the bench scale. While full-scale GAC would require morefrequent change-out compared to IX, GAC media is a lower-cost option and provides a secondary benefit of TOC adsorption that IX resin does not, due to resin PFAS selectivity. Short-chain PFAS started to break through GAC and IX columns prior to longchain PFAS as expected, based on industry findings to date. This may be of concern for the city and other utilities if short-chain PFAS are identified in water supplies as part of UCMR 5. Differences were identified between GAC in terms of total PFAS removal, with the Calgon carbon appearing to capture a wider range of PFAS and the Jacobi carbon appearing to target PFOS and PFOA. S
Conclusions and Next Steps In 2018, PAC presented a good temporary option for the city because it was installed quickly and provided sufficient PFAS reduction; however, PAC has increased residuals loading and is not as robust as other available PFAS treatment options. Both GAC and IX are good options for the city to consider for full-scale treatment.
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FWRC 2022 – CONNECT AGAIN!
Highlights From the 2022 Florida Water Resources Conference Mish Clark It was great to connect again at the 2022 Florida Water Resources Conference (FWRC) after a three-year sabbatical due to the pandemic. Sponsored by Florida Section American Water Works Association (FSAWWA), Florida Water Environment Federation (FWEA), and Florida Water and Pollution Control Operators Association (FWPCOA), the conference was held April 24-27 at the Ocean Center in Daytona Beach. The beach area made for easy access to comfortable hotels, quality restaurants, and, of course, the ocean. Daytona Beach is one of the major Florida cities that FWRC has on its site rotation, and
this year’s event set several new milestones, with everyone excited to reconnect.
2022 FWRC by the Numbers Here are some statistics from the conference: S 2,644 attendees S 360 exhibitor booths S 54 sponsors S Six paid events S 78 meetings S Five “Connect Again” networking events S 113 technical sessions and workshops S 95 continuing education units (CEUs) and 313 professional development hours (PDHs) awarded
A Multifaceted Conference The
conference
technical
program,
including workshops and special-interest presentations, was exceptional and the quality educational papers that were presented once again demonstrate why FWRC is so highly regarded as a premier event in the water/ wastewater business. Networking events brought to life the many ways that water professionals are growing and thriving in their careers. With the various opportunities and challenges they face on a daily basis, the broad array of technical presentations, roundtables, and symposiums provided many answers for them. The exhibit hall in the Ocean Center was completely sold out. There truly was a reason to visit every corner and the spaces in between. In the center of the exhibit hall, all could enjoy watching the various Operations Challenge competitions, where teams of four members competed in this statewide contest. Each year we try to include activities to make this event as interesting and informative as possible: Technical Tour: Daytona Beach’s LPGA Facility A tour of Daytona Beach’s LPGA Facility was held on Sunday and was very engaging and informative. It included the facility’s demonstration testing system, water reclamation facility upgrades, and water treatment plant upgrades. Operators Showcase The Operators Showcase, presented by FWPCOA, was an opportunity to review and discuss potable water reuse and the changes in Florida regulations. This year, Dr. Carlyn J. Higgins, assistant engineer with Hazen and
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FWRC 2022 – CONNECT AGAIN!
Sawyer, and Mike Darrow, superintendent of utilities operations at Plant City and past president and current Legislative Committee chair of FWPCOA, led the discussion. Women of Water Forum This fifth forum, facilitated by Randy Brown, utilities director from Pompano Beach, and Marjorie Craig, P.E., director, environmental utilities department from St. Cloud, allowed women (and men) to have a peer-to-peer exchange of knowledge and an opportunity to share experiences and inspiration. FSAWWA Water Utility Council Meeting At the meeting of the Water Utility Council (WUC), its members shared their knowledge, information, and advocacy to improve the quality and supply of drinking water. The FSAWWA WUC mission is to develop action programs to initiate, evaluate, respond, and comment on legislative, regulatory, and other matters directly affecting water utilities in Florida.
designs to the conference. Teams represented these Florida universities: Wastewater Category S Florida Gulf Coast University (Kaylei Kambak, Alexis Scheele, Brendan Zwiefel) S University of South Florida (Lauren Binder, Nicholas Nolan) Florida Gulf Coast University was the first-place winner in this category! Environmental Category S University of South Florida (Vanessa Adame, Anwar Alsharaf, Barbara Martinez, Shelby Rocha, Jada Williams) S University of Florida (Emily Hetherington,
Elayne Nash, Mattie Nevis, Jackson Newman, Brady Schwabach) S Florida Gulf Coast University (Nour Abedrabbo, Selena Crespo, Jose Jimenez) S Florida International University (Karen Gonzalez, Natacha Haces, Jissell Muir) The first-place winner in this category was University of South Florida! Each team presented its real-world findings to an assigned problem or task in both environmental and wastewater interests. This competition is intended for both undergraduate and graduate students, typically completing a capstone project. The winning teams will move on to the national contest at the 2022 Water Continued on page 16
Other Events Other events held at the conference this year included the Florida Select Society of Sanitary Sludge Shovelers (FSSSSS) annual members breakfast and new member induction ceremony, and the FSAWWA regional chairs and volunteers breakfast. Various other association meetings and forums were also held.
Students and Young Professionals: The Future of the Industry Emphasis was placed on young professionals and university students as we ramped up new activities to maintain their interest and involvement. Young Professionals Symposium The symposium, a joint endeavor by FSAWWA and FWEA, presented a roundtable discussion, with guest speakers sharing their career stories. YP Social The social, which was an evening event, provided an opportunity for young professionals and others to meet, network, and learn more about the industry. Student Design Competition The competition brings the brightest young minds and their wastewater and environmental
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FWRC 2022 – CONNECT AGAIN! Continued from page 15 Environment Federation Technical Exhibition and Conference (WEFTEC) in New Orleans in October. As an added bonus, a resumé writing workshop was held to assist the students in preparing a sharp resumé for future employment consideration. Student Poster Contest The poster contest was in full swing Monday afternoon in the rear stage area of the exhibit hall. The winners were:
S F irst Place: Yan Zhang - University of South Florida S Second Place: Thanh Lam - Jacobs
Technical Sessions and Workshops: Peers Share Their Expertise The technical program, loaded with valuable content, was coordinated by Nicole McConnell, P.E., with Kimley-Horn. She serves as conference vice president, and her technical review committee, which is composed of industry experts from a variety of government and privately owned facilities
and agencies, developed the program. The committee members read and graded the submitted abstracts by subject, and the top five in each group were selected for presentation. Workshops The eight workshop presentations were: S Introduction to Stormwater S Innovation Forum S Communities Meeting the PFAS Challenge S Public Utilities Potpourri: Resiliency Funding, Senate Bill 64 Compliance Strategies, Legislative and Regulatory Update, and Interactive Lead and Copper Rule Revisions S Collections Systems S Communications S Top Five Factors to Consider When Choosing a Delivery Method: Client and Contractor Perspective S Septic System Upgrades Technical Sessions Two days of solid technical content included five (sometimes more) concurrent sessions that substantially covered important and timely issues on the following topics: S Utility management S Potable water treatment S Wastewater treatment S Collection systems S Stormwater and green infrastructure S Distribution systems S Biosolids/resource recovery S Modeling/geographic information systems (GIS)/computer apps S Sustainability/water supply S Nutrient removal S Reclamation and reuse
Thanks to Our Sponsors The conference sponsors help to enrich the experience at FWRC. We appreciate their interest in the conference’s vision and are grateful for their support. We encourage all conference attendees to give these sponsors the opportunity to earn their business throughout the year. Title Sponsor S Merrell Bros. Platinum Sponsors S CHA Consulting Inc. S Custom Controls Technology Inc. S Wade Trim S Vogel Bros. Building Co.
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FWRC 2022 – CONNECT AGAIN! Gold Sponsors S A ECOM Technical Services Inc. S A tkins Global S F J Nugent & Associates Inc. S G ML Coatings S G rundfos S F reese and Nichols S H DR Engineering S H ydra Services Inc. S M ott Macdonald S W right-Pierce Silver Sponsors S A rcadis S B lack & Veatch Corporation S C ustom Controls Technology Inc. S G annett Fleming S H askell S M oss Kelley Inc. S N anostone Water Inc. S S ynagro Technologies Inc. S T etra Tech S W eston & Sampson Bronze Sponsors S A rdurra S B arge Design Solutions S B rown & Caldwell S C arter & VerPlanck S C ommerce Controls S H udson Pump & Equipment S V aughan Company Inc. S W harton-Smith Inc. S W oolpert S X ylem Water Solutions Supporting Sponsors S C DM Smith S F lender Corporation S F lorida Aquastore & Utility Construction Inc. S F lovac S F ortiline Waterworks S G erber Pumps International Inc. S G uardian Equipment Inc. S J acobs S J ones Edmunds & Associates Inc. S K ampstrup Water Metering S K iewit S S tantec S S tarnet Technologies S S undt Construction Inc. S S ynagro Technologies Inc. S U .S. Submergent Technologies S T om Evans Environmental S V ega Americas S V TScada by Trihedral
Networking and Annual Events: Information Sharing and Industry Recognition Many activities went on at FWRC in addition to the educational forums, technical sessions, and committee meetings. President’s Reception To kick off the 2022 FWRC, a president’s reception was held in the exhibit hall. As everyone networked and reconnected, buffets and open bars were enjoyed by all. In addition, the band, Wolfhawk, sponsored by Thermal Processing Systems, helped to set the mood. Then, to everyone’s surprise, two local animal rescue organizations joined the party, which charged the atmosphere and brought instant smiles to everyone. Thank you to Southeastern Guide Dogs and Halifax Humane Society Inc. for their support. Awards Luncheons Hundreds of attendees and exhibitors attended the Monday FWRC awards luncheon. Tim Madhanagopal, FWRC president, hosted the proceedings; the board members of FSAWWA, FWEA, FWPCOA, and FWRC were in attendance; and several awards were given out. Also in attendance was Ifetayo Venner, the national representative from WEF and its 20212022 president-elect, and Scott Kelly, P.E., past president of FWRC. Patrick Murphy hosted the Florida Select Society of Sanitary Sludge Shovelers (FSSSSS) inductions at the Monday lunch. This exclusive
award honors the recipients based on merit for their “outstanding and meritorious service above and beyond the call of duty to the water industry.” This year’s recipients were Chris Collins, Keaton Heller, and Lynn Spivey. Tuesday’s FWEA annual meeting and awards luncheon hosted Ifetayo Venner, the WEF officer in attendance, and included review of the organization’s annual report, election of officers, and passing of the gavel to new FWEA president Sondra Lee, who gave her incoming remarks. Networking Party The Monday Night networking party was held at the Hilton, across the street from the Ocean Center. The open bar and live music by Martini Pop got folks on the dance floor as they enjoyed the atmosphere and the delicious desserts.
Contests and Competitions FSAWWA “Best of the Best” Tasting Drinking Water Competition This competition had 12 entrants that won the Best Tasting Drinking Water Contests in their FSAWWA regions. Winners from these regional events competed at FWRC. On Tuesday, the municipalities representing the section’s 12 regions entered their drinking water samples for close examination and various testing. The 12 regions included the following: S Region 1 - City of Tallahassee S Region II - JEA Continued on page 18
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FWRC 2022 – CONNECT AGAIN!
Continued from page 17 S R egion III - Seminole County S R egion IV - Polk County S R egion V - Bonita Springs Utilities Inc. S R egion VI - Seacoast Utility Authority S R egion VII - Florida Keys Aqueduct Authority S R egion VIII - Martin County Utilities S R egion IX - South Walton Utilities S R egion X - City of Punta Gorda S R egion XI - City of Belleview S R egion XII - City of Lynn Haven The winner at this year’s contest was Seacoast Utility Authority! Operations Challenge The Operations Challenge included teams of four people that competed in five separate events: operations, maintenance, laboratory, safety, and collection systems. Teams competed at a regional level to earn the right to represent Florida at the national competition at WEFTEC. The teams competing included: S P olk County Bio-Wizards S J EA Fecal Matters S S t. Petersburg Dirty Birds S G RU True Grit The first-place winner this year was Polk County Bio-Wizards, and JEA Fecal Matters earned the second-place trophy. Top Ops The AWWA Top Ops is the “College Bowl” of the water industry. Teams competed against each other in a fast-paced competitive questionand-answer tournament where a moderator asks a broad range of technical questions to the participating teams, and they have a limited time to answer. The winner represented the
Florida Section at this year’s AWWA Annual Conference and Exposition (ACE22) Top Ops competition in San Antonio. The teams this year were as follows: S Mono Rays (Vinny Domanico, Kendra Phillips, Jason Adair, Ken Durr, and Michael Avila) from Pasco County Utilities S The Water Guns (Bill Young, Greg Taylor, Carlyn Higgins, and Mike Darrow) The Mono Rays was this year’s winner.
Volunteers: The Backbone of the Conference The FWRC has many moving parts and I would especially like to thank all of our talented speakers, who truly are experts in their fields; staff members of FSAWWA, FWPCOA, and FWEA; all the many people who volunteered their time at registration, as part of the technical review committee, and workshop coordinators; attendees at educational events and committee meetings; and all the other people behind the scenes who make this event so successful. You are all good stewards of Florida’s clean water environment with your commitment to FWRC.
Save the Date Let’s get ready for more fun and sun at the 2023 Florida Water Resources Conference, which is scheduled for May 13-17 at Gaylord Palms in Kissimmee. The FWRC strives to be your prevailing source for technical and educational information and we look forward to another great conference next year! Mish Clark is executive director of the Florida Water Resources Conference.
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We thank you for attending the 2022 Florida Water Resources Conference in Daytona Beach. I hope you had a memorable FWRC 2022 and the events were up to your expectations. We hope you and your company or your utility benefitted from the technical sessions, exhibits, field trip, and networking opportunities. The conference was a great success and set a record in several areas. We hope to see you in May 2023 in Kissimmee as we return to the beautiful Gaylord Palms. We always appreciate your feedback. We started the planning for FWRC 2023 based on your comments. We are working on improving the conference experience by implementing a new conference management system (CMS) and we invite your sponsorships for this new CMS. If we can be of help in any way with your participation next year, please do not hesitate to contact us. Tim Madhanagopal, P.E., F.WEF, F. NSPE President, Florida Water Resources Conference Inc.
FWRC 2022 – CONNECT AGAIN!
City of Daytona Beach Hosts Tour of Its LPGA Facility On Sunday, April 24, conference attendees toured the City of Daytona Beach’s LPGA Facility. The facility is the site of the city’s 24-milliongallon-per-day (mgd) Ralph Brennan Water Treatment Plant, as well as the 15-mgd Westside Regional Water Reclamation Facility (WRF). During the tour, attendees visited the following: Demonstration Testing System The city recently completed two years of data gathering on this 200,000-gallon-per-day (gpd) direct potable reuse system. The system includes ultrafiltration, followed by nanofiltration, with
polishing via ultraviolet advanced oxidation process (UVAOP). While the system is currently nonoperational, attendees had the chance to tour the facility, view the equipment setup, and ask questions. Westside Water Reclamation Facility Upgrades The city has invested $45 million in the Westside WRF over the past three years. Construction included an eight-cell tertiary deep bed sand filter structure, mechanical equipment, clarified liquid pump station structure, aeration improvements at the five-stage Bardenpho process, return activated sludge/waste activated
sludge (RAS/WAS) pumping stations, two electrical buildings and dewatering feed box, construction of new deep bed sand filters and new dewatering belt filter presses, and miscellaneous demolition and improvements throughout the facility. Attendees were able to tour these improvements and see them in full operation. Brennan Water Treatment Plant Filter Upgrades The city is in the process of replacing dual media filters that range from 35 to 45 years old. Attendees toured the project and saw a filter in mid-demonstration and reconstruction.
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FWRC 2022 – CONNECT AGAIN!
EXHIBITIONS
The Newest Products, Services, and Innovations
The exhibit hall this year included 360 exhibit booths, with company employees and representatives discussing cutting-edge technologies and processes with the attendees. Booths for FSAWWA, FWEA, FWPCOA, and the Florida Water Resources Journal had staff and volunteers available to talk about programs and events from the three organizations and their joint magazine. The hall was also the site for the evening receptions; prize giveaways; Top Ops, Operations Challenge, and “Best of the Best” Drinking Water Contest competitions; poster session; and some of the awards presentations. Some of the many activities are pictured here.
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FWRC 2022 – CONNECT AGAIN! WORKSHOPS AND TECHNICAL SESSIONS
Sharing Knowledge, Know-How, and Expertise Experts in their fields gave presentations on the latest information for water and wastewater. The eight workshops at the conference covered the topics of stormwater, per- and polyfluoroalkyl substances (PFAS), public communications, public utilities issues (resiliency funding, Senate Bill 64 compliance strategies, legislative and regulatory update, and interactive lead and copper rule revisions), collection systems, factors to consider when choosing a delivery method, and septic system upgrades. The two-day technical program included sessions on utility management, wastewater treatment, nutrient removal, stormwater and green infrastructure, collection systems, biosolids and resource recovery, potable water treatment, modeling/geographic information systems/computer apps, sustainability and water supply, reclamation and reuse, and distribution systems. Pictured are some of the workshops and sessions.
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FWRC 2022 – CONNECT AGAIN! OPERATORS SHOWCASE
Operators Hear Timely Topics for the Water and Wastewater Industry Operators traveled from across Florida to attend the conference. On April 24, some attended the Operators Showcase to have a beer and discuss current topics in the water utility industry. The showcase is sponsored by the Florida Water and Pollution Control Operators Association (FWPCOA), and this year the discussion was moderated by Ken Enlow, project manager at the Tampa Bay Water Surface Water Treatment Plant.
The session had two presenters: S C arlyn Higgins, Ph.D., E.I., assistant engineer II with Hazen and Sawyer, talked about indirect potable reuse, equipment, and operator certification. S Mike Darrow, superintendent of utility operations at Plant City, gave a rules update.
S W etland restoration S Toilet flushing S Washdown Groundwater and surface water augmentation are used for indirect potable reuse and finished water augmentation is used for direct potable reuse.
Dr. Carlyn Higgins
Higgins Presentation: Potable Water Reuse
Florida Reuse Projects and Regulations In Florida, potable water reuse projects are underway at the following cities and utilities, with project status indicated: S City of Clearwater (operated July 2013 – June 2014) S Hillsborough County (design phase) S Tampa Bay Water (2016 – ongoing) S City of Altamonte Springs (2016 – ongoing) S JEA (phase I in 2018; phase II began 2019)
S C ity of Daytona Beach (March 2017 – November 2021) S City of Tampa (feasibility phase) S City of Plant City (2022 – ongoing) Higgins presented the recent timeline for potable reuse regulation: S 2018 – 2019: Public Reuse Commission holds public meetings. S 2020: Senate Bill (SB) 712 directs the Florida Department of Environmental Protection (FDEP) to develop rules for all types of water reuse. S 2020: Later in the year, SB 64 requires elimination of nonbeneficial surface water discharge by 2032. S 2021: The FDEP issues draft potable reuse rules and revisions to wastewater and drinking water chapters. A pilot is
Drivers and Types of Potable Reuse Potable water reuse is being considered in many parts of the United States. There are several drivers for potable water reuse: S Traditional source water limitations (quantity and/or quality) S Limited drinking water treatment capacity S Limited drinking water distribution capacity S Environmental discharge restrictions S Limited collection system capacity (onsite reuse) S Compatibility of reclaimed water with water use application S Environmental augmentation There are several types of nonpotable reuse: S Irrigation S Cooling S Boiler feed S Refineries
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Types of water use. (source: CUWA, 2019)
FWRC 2022 – CONNECT AGAIN! currently required prior to the design and construction of a potable reuse process. Operator Certification for Potable Reuse In 2017, the California Urban Water Agency recommended a hybrid licensure approach to allow water and wastewater operators to obtain a license in potable reuse or advanced water treatment. Two Water Research Foundation projects recommended the following: S P otable reuse should be added to water and wastewater treatment certification. S C ertification should include regulation,
source water understanding, advanced monitoring, and sampling. In California, a committee has created an advanced water treatment operations certification. In Florida, the Potable Reuse Commission, in 2019, stressed that highly trained certified operators are critical to the safe and successful functioning of potable reuse systems. “Endorsements” to existing operator certifications that cover advanced treatment, specific unit process, monitoring, and regulatory compliance should be implemented. Currently, Florida has considered separate
S E nhanced public education and outreach requirements. S Optimizing corrosion control program. S Service line inventories and lead service line replacement (LSLR). Build a Piping Inventory Start now to build a piping inventory using traditional data sources: S Building and plumbing records S City ordinances and state laws
wastewater facility and public water system operator certifications, and a dual operator certification may be required in the future. There are resources that are available to operators interested in learning more about potable reuse: S Training modules developed by Water Environmental and Reuse Foundation S Membrane operator certification modules (MOC) from Southeast Desalting Association (SEDA) S Direct potable reuse operator training from WateReuse Association S “Potable Reuse 101” from American Water Works Association
S M aintenance records S Water quality data S Health data All water systems must build an inventory or demonstrate there is no lead by Oct. 16, 2024. Recommendations for every system include: S Document, document, document. S Take advantage of ongoing capital improvements and maintenance.
Mike Darrow
Darrow Presentation: Rules Update The FWPCOA is a trade organization founded in 1941, although the roots of the organization can be traced back to the 1920s. The association’s members are directly involved or associated with the water utility industry in Florida, including drinking water production, wastewater treatment, water reclamation, biosolids handling, and stormwater management. U.S. Environmental Protection Agency: Lead and Copper Rule Considerations for this rule include: S Copper requirements are unchanged. S Maintains current lead action level (AL) 15 µg/l and creates new trigger level (TL) 10 µg/l for the 90th percentile. S Prioritizes sampling at single-family homes with lead service lines (LSLs). S Changes sample collection procedures (first and fifth liter samples). S Requires sampling at schools and childcare facilities.
Where should service lines be checked?
Managing the "unknown" service lines.
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FWRC 2022 – CONNECT AGAIN! S P lan to address service lines with “unknown” materials. Managing “Unknown” Service Lines “Unknown” services are treated as lead when using the inventory to plan replacements. Recommended Actions for Utilities S B egin determining and replacing lead services and components. S Start talking to childcare facilities and schools about lead. S If you don’t have, or don’t believe you have, LSLs, consider how you’ll prove it. S Evaluate historic monitoring and collect additional data to determine your risk. S Optimizing corrosion control treatment (CCT) now could save a lot of headache (and money) in the future. S Evaluate funding program eligibility and get in the funding queue as early as possible—there will be competition for funds. S Elevate sampling plan to prevent issues. Per- and Polyfluoroalkyl Substances In October 2021, EPA announced its per- and polyfluoroalkyl substances (PFAS) strategic roadmap, laying out a wholeof-agency approach to addressing these chemicals. The roadmap sets timelines by which EPA plans to take specific actions and commits to bolder new policies to safeguard public health, protect the environment, and hold polluters accountable. The actions described in the PFAS roadmap represent important and meaningful steps to safeguard communities from PFAS contamination. Cumulatively, these actions will build upon one another and lead to more enduring and protective solutions. The EPA timeline is as follows: S Proposed national primary drinking water regulations for perfluorooctanoic
acid (PFOA) and perfluorooctane sulfonic acid (PFOS). S Science Advisory Board submitted a draft report in April 2022. S A proposed rule is expected to be issued in fall 2022 and a final rule in fall 2023. S The agency is also evaluating additional PFAS and considering actions to address other groups of PFAS compounds. Unregulated Contaminant Monitoring Rule The Safe Drinking Water Act (SDWA) requires that, once every five years, EPA issue a list of unregulated contaminants to be monitored by public water systems (PWS). The fifth Unregulated Contaminant Monitoring Rule (UCMR 5) was published in December 2021. It requires sample collection for 30 chemical contaminants between 2023 and 2025 using analytical methods developed by EPA and consensus organizations. This action provides EPA and other interested parties with scientifically valid data on the occurrence of these contaminants in drinking water in the U.S. Consistent with EPA’s PFAS strategic roadmap, UCMR 5 will provide new data that are critically needed to improve the agency’s understanding of the frequency with which 29 PFAS (and lithium) are found in the nation’s drinking water systems and at what levels. These data will ensure science-based decision making and help to prioritize the protection of drinking water in disadvantaged communities. The sampling for contaminants includes the following actions: S Surface water must monitor four times in 12 months at three months apart. S Groundwater systems must monitor two times at five to seven months apart. S Systems are to update sampling locations by Dec. 31, 2022. S Sample results must be approved by an operator and reported to the Central Data Exchange (CDX) Safe Drinking Water Accession and Review System (SDWARS). Florida Department of Environmental Protection Rule Changes The SB 712 was landmark legislation passed in 2020 to protect Florida’s water resources and includes the following: S Potable reuse rulemaking (62-610) S Biosolids rulemaking and provisions (62-640) S Collection systems rulemaking and provisions (62-604) S Indian River Lagoon advanced
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wastewater treatment (AWT) requirement S T ransfer of the regulation of onsite sewage treatment and disposal systems (OSTDS) from the Florida Department of Health (DOH) to FDEP S F DEP annual sanitary sewer overflows (SSOs) report to the Legislature Collection Systems Chapter 62-600, F.A.C., requires the following: S C ollection system flows be routinely reviewed as part of the pipe assessment, repair, and replacement action plan required in the new Rule 62-600.705, F.A.C. S N ew provisions added to require facility emergency response plans to include cybersecurity for facilities greater than 100,000 gallons per day (gpd). S A n emergency power outage contingency plan, an annual report for SB 64 facilities, and an annual report on costs for pollution mitigation. Chapter 62-604, F.A.C. requires the following: S K ey revisions to spill reporting and to the operations and maintenance section that applies to all new and existing collection systems to prevent SSOs. S E mergency response plans must address cybersecurity, surface water monitoring, and hurricane preparedness/response. S O wners/operators shall maintain collection systems to minimize infiltration, inflow, leakages, and SSOs. S R evises State Watch office and public notification for spill reporting to the business portal. S A n annual report on SSOs and public notice websites. Biosolids Chapter 62-640, F.A.C. revisions are as follows: S R evises how loading rates are determined; must determine a phosphorus-based rate and a nitrogenbased rate—cannot exceed either rate. S R evises groundwater monitoring requirements and establishes surface water monitoring requirements. S S ites and facilities must comply by June 21, 2023, or sooner, with permit renewal. S E xpect lower land application rates, more acreage needed, and/or shift to Class AA production.
FWRC 2022 – CONNECT AGAIN!
Darrow makes a point during his presentation.
Reuse Chapter 62-610, phased rulemaking:
F.A.C.,
Darrow (left) and Higgins jointly answer questions.
stipulates
Phase I (Consistency and Clarifications) S Three phases planned. S Ensures consistency with other FDEP rules and governing Florida Statutes. S Clarifies existing requirements for reuse and Part III land application systems. S Requires use of a new electronic reporting tool for submittal of annual reuse reports. Direct Potable Reuse and Indirect Potable Reuse These processes will require: S Pretreatment program and enhanced pretreatment and source control for all potable reuse systems. S Advanced wastewater treatment. S Direct potable reuse will have similar requirements to surface water systems. • 10-Log removal Giardia lamblia • 10-Log removal Cryptosporidium oocysts • 12-Log removal viruses S Permit modification required for potable reuse pilot projects and full-scale potable reuse systems. S Full-scale operational demonstration. S Potable reuse systems deliver an engineering report on the pilot- and fullscale plant proving removal. S Design average daily flow of at least 0.1 million gallons per day (mgd). S Full treatment and disinfection requirements. S Nothing on operator requirements. S Full engineering report. S Reliability and staffing requirements. S Monitoring and reporting requirements. S Storage requirements.
Ken Enlow (standing at left) moderates the session.
S Pilot study at least every 12 months, with final treatment design. S Diversion ability for off-spec water. S Removal of pathogens through advanced treatment methods. S Indirect potable reuse through groundwater sources, as well as surface waters. S Injection and rapid-rate infiltration. S Any injection into an underground source of drinking water (USDW) will be considered potable reuse, except when used for irrigation purposes. Timing The timing for the rulemaking is as follows: S Chapter 62-610, F.A.C. • Phase I – Effective Aug. 8, 2021 • Phase IIA – Anticipated spring/ summer 2022 S Indirect Potable Reuse and Aquifer Storage and Recovery. • Phase IIB – Anticipated summer 2023 S Chapter 62-550, F.A.C. – Anticipated summer 2023.
S C hapter 62-555, F.A.C. – Anticipated summer 2023. Florida Air and Water Pollution Control Act This addresses the assessments of water resources that must include an analysis of the cost to repair, replace, and expand waterrelated infrastructure. S D eadline is June 30, 2022, and every five years. S T o meet these new requirements, every municipality, county, and special district must complete a 20-year needs analysis (one for stormwater, one for wastewater). S A sset management for those systems will help this requirement. Enlow reminded the attendees that the Operators Showcase will again be held at the 2023 Florida Water Resources Conference in Kissimmee and that any suggestions for topic ideas for next year should be emailed to Patrick “Murf ” Murphy at pmurphy@plantcitygov.com.
Florida Water Resources Journal • July 2022
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FWRC 2022 – CONNECT AGAIN! WOMEN OF WATER FORUM
Forum Celebrates the Accomplishments of Women in the Industry Acknowledging the importance of, and contributions by, women in the water and wastewater industries, the fifth Women of Water (WOW) forum was presented at the conference on April 25. The facilitators for the session were: S Marjorie G. Craig, P.E., director, environmental utilities department, City of St, Cloud S A . Randolph Brown, utilities director, City of Pompano Beach The two-hour session attracted more than forty people (mostly women, with some men), and the interaction among the panelists, moderators, and audience members—students, those new to the industry, and seasoned professionals— produced a lively and informative discussion. The panelists for the program were: S M onica Autry Wallis, P.E., operations manager, Destin Water Users Inc. S R honda Harris, P.E., BCEE, PMP, senior owner/advisor, Brown and Caldwell S T erri Lowery, senior vice president, Jones Edmunds and Associates Inc. S S uzanne Mechler, P.E., BCEE, client service leader, CDM Smith S E milie Moore, P.E., PMP, ENV SP, senior program manager, Black & Veatch S L ynn Spivey, director of utilities, City of Plant City
Background Craig and Brown welcomed everyone to the session, which was held in a hollow-square format to help facilitate discussion with the audience. Craig stated that the purpose of the forum is to allow everyone to share their stories about their work experience and to support each other.
Monica Autry Wallis
Rhonda Harris
In the United States, less than one in five water workers is a woman, according to new research by the World Bank’s Water Global Practice. Women are also underrepresented in technical and managerial positions where, in sampled utilities, on average, only 23 percent of licensed engineers are women. The figure is the same for female managers. Some utilities have no women in technical and managerial positions at all—one in three (32 percent) utilities in the sample have no female engineers and 12 percent of utilities have no female managers. The industry has a long way to go, but great strides have been made over the last 20 years.
Their Start in the Industry Craig asked the panelists if they chose the water industry or if it chose them. S Autry Wallis said that she chose to work in water. S In college, Mechler didn’t like chemical engineering, so she switched to water. S Harris was in civil engineering for six years, earned an MBA, and then started in water. S Moore liked the environmental aspect of water and wanted to “save the world.” She first got involved by joining the Florida Section AWWA. S Lowery thought that engineers drove trains! She learned that she enjoyed doing things that engineers didn’t (securing project funding, public communication, going to board meetings) and proved herself useful to the industry. S Spivey fell into the work. She started in electrical engineering and switched to chemical engineering, which led her to water treatment.
Terri Lowery
26 July 2022 • Florida Water Resources Journal
Suzanne Mechler
Finding Success Craig posed this question to the panelists: What does a woman need to be successful in the industry? S W omen need to be encouraged to speak up about what they want. S M entors can give women advice and guidance about their experiences. S M any younger women enter the industry as consultants and should be encouraged to learn all aspects of the industry to open up new opportunities. S F ind a network, join an association, volunteer on committees. S C reate a viable work/life balance. People have different needs at different stages of their careers. S Never feel alone or that you have to succeed on your own. There are many people (women and men) who can help you navigate a workplace. S L ook beyond a job description and seek out other projects that might be of interest. This will help others to see your worth. Brown stated that workers should be willing to take on new tasks, but they should be allowed to fail, as that’s when you learn what to do (and not to do) the next time. When workers feel empowered to try new things, that’s when innovation occurs.
Addressing the Worker Shortage and Retirement Wave According to the U.S. Environmental Protection Agency, more than half of water industry workers will be eligible to retire by the end of this decade. This massive wave of retirees will leave a large gap of experience and
Emilie Moore
Lynn Spivey
FWRC 2022 – CONNECT AGAIN!
The panelists took questions from the audience
knowledge in the workforce. Utilities, and other water-related companies and organizations, depend on their people to provide clean water to customers, and the ability to retain and attract new talent will help to minimize the impact of this worker exodus, building a base of dedicated employees who can grow within organizations. Brown asked what organizations can do to address the worker shortage and the following was offered by the panelists: S C ompanies need to capture the institutional knowledge of its workers before they retire. The ideal is to keep the current employees when new ones are hired to mentor them and pass on their knowledge, but this isn’t always economically feasible. S O perators have a lot of knowledge that can be captured before they retire. S L ook at the pay structure of other industries and try to match them, or at least offer other benefits and compensation. It’s hard to have competitive salaries when they’re governed by boards of directors and public commissions. S T o attract younger women, use social media outlets to post job openings and tell your company’s story. Younger workers want to make a difference in the world, and working in the water industry can provide meaning to people to provide a public service and address environmental issues, climate change, etc. S C reate more internships for students and those who’ve recently graduated. S P romote jobs in the water industry at the junior high and high school level.
Preparing for Opportunity What Women Can Do Present and future water challenges call for the industry to attract and retain the best talent it can. Craig asked the panelists: How can women work to overcome current barriers, contribute
The audience included women and men.
to a more supportive work environment, and prepare themselves for the future? S Realize that a degree doesn’t teach you everything you need to know. You have to be open to learning from superiors and colleagues on the job. S Have a basic knowledge of financial issues: ratemaking, asset management, and budgeting. S If you’re an engineer or technical person, learn all you can about communications, management, public relations, human resources, and other nontechnical fields to increase your marketability. What the Industry Can Do Ensuring that everyone has safe water to drink and essential wastewater services is a top priority for the industry. How can utilities and other employers attract the workers they need to provide communities with vital water services that protect public health and the environment, while also driving the economy? S Water has been the “silent service” for too long. Increase public awareness of the industry, which is vital to every aspect of human life. S Accurately define the specific skills and competencies for a job to help get the right candidates. S Encourage interaction and communication between engineers and other technical staff, and operators and administrative staff. Understand that everyone is working toward the same goal. S Increase the pay scale for everyone (the water industry has not kept pace with other industries), but especially for operators. S Continue a hybrid home/office work schedule, but be ready to address resentments that may exist with employees who have jobs that don’t allow for a work-athome option. S Realize that women in nontechnical jobs at the company (finance, human resources,
public affairs, information technology) can be good candidates for management and other senior positions.
COVID-19 Changed the Workplace—and the Workforce Brown stated that COVID-19 has resulted in a rapid transformation of the workplace, and it can be a catalyst to reinvent the future of work, especially for women and younger workers. Employees are giving the following a top priority in their lives: S Job satisfaction S Career progress S Family life S Overall happiness It was suggested that employers consider the following to attract and retain workers: S Consider a 10-hour, four-day work week for employees. S Introduce flexible employee policies that address sick leave, time off, childcare, and eldercare. S Offer childcare and transportation subsidies. S Allow employees to work on projects that may not be in their job descriptions, but that they feel would increase their job satisfaction and lead to promotions. S Ensure that customers and clients understand the value of the work of employees.
Thanks and On to Next Year! Craig and Brown thanked the panelists for their participation and the audience for attending. They also asked the attendees to make suggestions, submit questions, or recommend panelists (or volunteer as a panelist) for next year’s forum by emailing Craig at marjorie.craig@stcloud.org. They look forward to seeing everyone at the next forum, which will be held at the 2023 Florida Water Resources Conference in Kissimmee.
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FWRC 2022 – CONNECT AGAIN! STUDENTS AND YOUNG PROFESSIONALS ACTIVITIES There were a lot of things for young professionals and university students to learn about, see, and do at the conference. Young Professionals Symposium The symposium, a joint endeavor by FSAWWA and FWEA, presented a roundtable discussion, with guest speakers sharing their career stories.
YP Social The social, which was an evening event, provided an opportunity for young professionals and others to meet, network, learn more about the industry, and have fun!
Student Poster Contest The poster contest was held Monday afternoon in the rear stage area of the exhibit hall. The winners were: S First Place: Yan Zhang, University of South Florida S Second Place: Thanh Lam, Jacobs
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FWRC 2022 – CONNECT AGAIN!
Student Design Competition The Student Design Competition brings the brightest young minds and their water-related designs to the conference, with teams representing several Florida universities. Each team presented its real-world findings to an assigned problem or task in both environmental and wastewater interests. This competition is intended for both undergraduate and graduate students, typically completing a capstone project. This year, Florida Gulf Coast University was the first-place winner in the wastewater category, and the first-place winner in the environmental category was University of South Florida. The winning teams move on to the national contest at the 2022 Water Environment Federation Technical Exhibition and Conference (WEFTEC) in New Orleans in October. Resumé Writing Workshop A resumé writing workshop was held to assist students in preparing a sharp resumé for future employment consideration, including objectives, education, experience, professional involvement, awards, and skills.
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FWRC 2022 – CONNECT AGAIN!
Chris Fasnacht emcees the contest
The Bio-Wizards team displays its first-place trophy
Fecal Matters wins second place.
OPERATIONS CHALLENGE
Polk County Bio-Wizards is 2022 Winner! Polk County Bio-Wizards came in first place in this year’s Operations Challenge, and Fecal Matters, the team from JEA, finished second, a feat it pulled off at the last contest in 2019. The contest is coordinated by Chris Fasnacht, with City of St. Cloud. Four teams came to Tampa to compete. The other teams in the contest were: S City of St. Petersburg Dirty Birds S G RU True Grit The competition, which was held in the exhibit hall, is a skills-based contest consisting of four timed events and one questionnaire event that showcase the knowledge and expertise of wastewater treatment plant operators. The teams display their proficiency in process control, maintenance, safety, collections, and the laboratory. The Bio-Wizards came in first in the process
control, maintenance, and laboratory categories, and Fecal Matters won the collections and safety categories. The process control event uses a computerbased questionnaire where two team members are given certain scenarios to figure out through a supervisory control and data acquisition (SCADA) program, and the other members complete a math and basic knowledge question section. The laboratory section is an ammonia and alkalinity testing situation, in a simulated format, to determine the operation of an aerobic wastewater system, as well as added questions to know what the demand and usage are. The maintenance event simulates the maintenance of a lift station where a pump has gone down and a new pump is set up as a bypass. The teams are to do a simulated inspection of the pump before simulating taking the pump to the
The process control event.
A “coworker” is rescued from a confined space during the safety event.
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station and hooking it up. The collections event simulates the team having to replace a section of an 8-inch piece of pipe with a new piece of pipe that has a 4-inch hole cut out for a new sewer lateral. While this is going on, one member of the team is setting up a sampler to take samples. The safety event simulates a person passing out in a confined space and the team arriving onsite to retrieve the person. Also added is the maintenance of a check valve in replacing the gaskets to it. The top two teams will now go on to represent Florida at this year’s Operation Challenge at the Water Environment Federation Technical Exhibition and Conference (WEFTEC), which will be held in New Orleans in October. The contest is looking for sponsors to help finance the travel costs for Florida’s champions to compete at the national level at WEFTEC. If you would like to contribute, please reach out to Brad Hayes at bhayes@woodardcurran.com for sponsorship information. The next Operations Challenge at FWRC will be held May 2023 in Kissimmee. The competition is open to teams of wastewater treatment operators from any utility in Florida. For information on entering a team, contact Chris Fasnacht at cfasnacht@stcloud.org.
The maintenance event.
The collections event.
The laboratory event.
FWRC 2022 – CONNECT AGAIN! COLLECTIONS RELAY
First-Time Relay Held at FWRC There was a special bonus in the exhibit hall this year. For the first time, a Collections Relay was held, which was under the wing of the Operations Challenge teams. This exhibition had 25 entrants signed up to compete, performing hole saw and pipe cuts timed relays. The winners received Visa gift cards. This was a huge draw in the hall, and several women signed up to compete in this event.
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FWRC 2022 – CONNECT AGAIN! TOP OPS
Mono Rays Wins Top Ops Competition The Mono Rays from Pasco County Utilities qualified for the national American Water Works Association (AWWA) Top Ops competition by winning the Florida Top Ops, held during the conference. The teams this year were: S M ono Rays (Vinny Domanico, Kendra Phillips, Jason Adair, Ken Durr, and Michael Avila) from Pasco County Utilities S Th e Water Guns (Bill Young, Greg Taylor, Carlyn Higgins, and Mike Darrow)
The winning Mono Rays team members are (from left to right) Ken Durr, Vinny Domanico, Kendra Phillips, Jason Adair, and Michael Avila.
Top Ops is a “College Bowl” type event that tests the groups, made up of water treatment and distribution operators or laboratory personnel, on their knowledge of system operations. Teams from FSAWWA regions compete against each other in this fast-paced question-and-answer tournament. The moderator poses a broad range of technical questions and math problems, and the team scoring the most points in the championship round is awarded the winner’s trophy. Teams were encouraged to promote their team theme and colors throughout the conference. The winning team competed at Top Ops at the American Water Works Association Annual Conference and Exposition (ACE22) in June in San Antonio with other teams from AWWA sections across the United States. Water utilities across the state are encouraged to enter the next Top Ops, which will be held April 2023 during the Florida Water Resources Conference in Kissimmee. Teams may represent more than one utility. For more details, and to receive the competition rules, contact the Top Ops chair, Thomas Tackman, at (239) 560-4149 or ttackman@watertalent.net.
Also assisting is (left) Nicole Thomas, Tampa Bay Water.
Officiating the contest are (left) Andrew Greenbaum, Peace River Manasota Regional Water Supply Authority, and Pat Allman, Odyssey Manufacturing.
Mono Rays team.
32 July 2022 • Florida Water Resources Journal
Members of the Water Guns team are (left to right) Bill Young, Greg Taylor, Carlyn Higgins, and Mike Darrow.
FWRC 2022 – CONNECT AGAIN! 2022 “BEST OF THE BEST” TAP WATER TASTE CONTEST
Seacoast Utility Authority Wins the “Best of the Best” Tap Water Taste Contest! Seacoast Utility Authority, from Florida Section AWWA (FSAWWA) Region VI, won the statewide Best Tasting Drinking Water Contest held at FWRC This competition had water samples from the contest winners of the 12 FSAWWA regions: S Region I - City of Tallahassee S R egion II - JEA S R egion III - Seminole County S R egion IV - Polk County S R egion V - Bonita Springs Utilities Inc. S R egion VI - Seacoast Utility Authority S R egion VII - Florida Keys Aqueduct Authority S R egion VIII - Martin County Utilities S R egion IX - South Walton Utilities S R egion X - City of Punta Gorda S R egion XI - City of Belleview S R egion XII - City of Lynn Haven The contest was emceed by Greg Taylor, senior project manager with Wright-Pierce. Terri Holcomb, with Peace River Manasota Regional Water Supply Authority, welcomed the audience and introduced the three judges: S D r. Stephanie Ishii, P.E., Hazen and Sawyer S R ichard Anderson, Peace River Manasota Regional Water Supply Authority S I fetayo Venner, P.E., Arcadis
Judging scores were based on taste, color, clarity, and odor. After the scores were tallied, the state contest winner was announced. Seacoast Utility Authority is a not-forprofit, governmental regional water, wastewater, and reclaimed water utility that furnishes potable water service to approximately 47,000 households and 2,700 commercial establishments. Its governing board members are appointed by the municipalities where Seacoast provides service, which includes City of Palm Beach Gardens, Village of North Palm Beach, Town of Lake Park, Juno Beach, and unincorporated areas of Palm Beach County. Seacoast’s 30.5-million-gallon-per-day (mgd) nanofiltration/low-pressure reverse osmosis treatment plant has been in operation since May 2014. Approximately 3 mgd of the facility’s nanofiltration concentrate is blended with reclaimed water and recycled as community irrigation water. Seacoast Utility Authority competed at AWWA Annual Conference and Exposition (ACE22) “Best of the Best” Tap Water Taste Contest that was held in June in San Antonio. After Seacoast received its traveling trophy, the permanent trophy was given to representatives from Meridian Hills Water System in Tallahassee, the 2019 contest winner.
Water samples were labeled with letters A through L to remain anonymous, so the judges didn’t know the identity of the samples.
Pictured left is the traveling trophy, and on the right is the permanent trophy.
Water samples ready for judging.
Greg Taylor (center), contest emcee, presents the winning trophy to Seacoast Utility Authority representatives. At left is Brandon Selle, P.E., chief operating officer, and at right is Bob Takahashi, chief water plant operator.
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FWRC 2022 – CONNECT AGAIN! NEW MEMBERS FOR FSSSSS
FWEA Society Inducts New Members for 2022 Three nominees for the Florida Select Society of Sanitary Sludge Shovelers (FSSSSS) became members of the organization after completing a tongue-twisting induction exercise at the conference, held on Monday during the awards luncheon. The chair of the society, Patrick “Murf ” Murphy, welcomed the attendees to the ceremony. The inductees this year were: S Chris Collins, Manatee County S Keaton Heller, Hydra Service Inc. S Lynn Spivey, City of Plant City
Patrick “Murf” Murphy emcees the ceremony.
Chris Collins signals victory!
Members of the head table enjoy the proceedings.
Lynn Spivey has her turn.
Murf signals that one of the contestants needs another try.
Keaton Heller strides to the podium when hearing his name called.
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Heller was nominated in the vendor or “peddler” category, Collins in the operator category, and Spivey in the engineer category. These three each took their turn at the podium, and after successfully repeating the name of the society three times (and after several tries!), received their certificates as members of the Class of 2022. The new members also received the coveted Silver Shovel pin, which, according to FSSSSS, must be worn at all times in public. Each nominee must be a FWEA member in good standing at the time of nomination. The nominees must also be present at the FWRC luncheon to receive the award as dictated by tradition. Upon successful completion of the induction ceremony, the nominees are: “Elevated on the official shovel to the highest ridge on the sludge bed, with the title of Florida Select Society of Sanitary Sludge Shoveler, and with all the honors, atmosphere, perquisites, and dignity appertaining thereunto.” The society, which was founded in 1956 by David B. Lee and has had more than 180 members, annually recognizes wastewater industry professionals for meritorious service above and beyond the call of duty to FWEA.
The luncheon audience roots for the contestants.
FLORIDA SELECT SOCIETY OF
SANITARY SLUDGE SHOVELERS
CHARTER MEMBERS - CLASS 1956 * Founder: David B. Lee * M. Emory Dawkins * Pat Flanagan * John E. Kiker Jr. * C. E. Richeimer * K.S. Watson Shoveler Class of 1957 * Ralph H. Baker * Bill Bryant * J. Robert Hoy * Emil Jensen Shoveler Class of 1958 * J.J.R. Bristow * Ralph E. Fuhrman * Wylie W. Gillespie * Ellis K. Phelps * R.E. Simon Shoveler Class of 1959 * Sidney A. Berkowitz * Thomas De S Furman * D. Joe Raye * John D. Wakefield * Joe C. Woolf Shoveler Class of 1960 * Clifford M. Courson * Arthur R. Finney Jr. * George T. Lohmeyer Shoveler Class of 1961 * Ray Lawrence * Robert R. McNary * Ralph L. Metcalf * E.C. Shreve Jr. Shoveler Class of 1962 * Perry A. Cessna * Fred A. Eldness * Harry E. Schlenz Shoveler Class of 1963 Alvin R. Murphy Jr. Vincent D. Patton J.A. Shepard * Sidney W. Wells Shoveler Class of 1964 * John E. Baber * J.F. Kapinos * Donald P. Schlesswohl * Robert S. Shaw * Raymond C. Willis Shoveler Class of 1965 Charles E. Adams * Fred C. Funnell * Sam P. Robinson * Sam Scott * Joe M. Valdespino Shoveler Class of 1966 * Arthur D. Castor Albert Henderson * Hoyle Knight Robert S. Wright Shoveler Class of 1967 * Lou Branding * K.K. Hufstetler * Richard P. Vogh Shoveler Class of 1968 * Paul D. Haney * Nick Mastro * John V. Miner Jr. * Thomas P. Smith
Shoveler Class of 1969 * William P. Allman * Hugh Pearch * James Santarone * Robert Sinn * Arthur F. Vondrick
Shoveler Class of 1970 Roderick W. Campbell * Joseph B. Hanlon * John B. Miller * Charles C. Sweglar Shoveler Class of 1971 * Hardy C. Croom * L.T. Faulk Joseph F. Lagnese, Jr. Shoveler Class of 1972 * J. Floyd Byrd * B.T. Dean * Harry W. Gioielli * S.M. Richard Jr. Shoveler Class of 1973 Charles L. Meyer Richard C. Mills * John D. Parkhurst George E. Symons * William C. Timms Shoveler Class of 1974 James F. Barlow John A. Dacy * R.L. Hart * Victor G. Wagner Shoveler Class of 1975 * Mac Grossman * Cecil M. Kent * Madame Jean Suave * William P. Simpson * Horace L. Smith Shoveler Class of 1976 * John W. Bamble * George W. Parker Jr. * Norman Tuckett Jr. Shoveler Class of 1977 Richard Englebrecht * George Humphreys * R.A. Litkenhaus * J. Edward Singley * Garrett Sloan Shoveler Class of 1978 * Arthur Saarinen Jr. * Felix Janocha Charles Hogue * Curtis Stanton Shoveler Class of 1979 Donald K. Shine * Geoffrey Scott Bobby L. Jones Shoveler Class of 1980 * Ray C. Holman Terry Knepper * E. Jack Newbould * Joseph Papia * David B. Preston Shoveler Class of 1981 * Robert A. Canham * George B. Furman Phil E. Whelchel
Shoveler Class of 1982 * William E. Dunn * Everett Kinloch Shoveler Class of 1983 Joan E. Stokes James Taylor Shoveler Class of 1984 * Frank D. Hoble Larry Robinson Wally Zentner Shoveler Class of 1985 * James M. McCracken * William D. Johnson Shoveler Class of 1986 * George H. Dacy * Kenneth M. Drury * Theodore C. Pope
Shoveler Class of 1987 Thomas M. Baber J.I. Garcia-Bengochea * Richard Sheldon Shoveler Class of 1988 Joseph Cheatham * Robert Driver David Stewart Shoveler Class of 1989 Phillip K. Feeney * Herb Pickle Samuel R. Willis Shoveler Class of 1990 Patrick Karney * Robert Parmelee H.E. Pruder Phil Searcy Shoveler Class of 1991 Sam P. Gutridge Ill Katherine Kinloch Shoveler Class of 1992 Donald Holcomb David Shulmister * J. Jack Smith Shoveler Class of 1993 Timothy Brodeur David Pickard Frederick Trippensee Shoveler Class of 1994 Salvatore D’Angelo Bert Hale Charles Jacobs Shoveler Class of 1995 Donald Munksgaard Charles Logue * James Baird Jr. Douglas W. Fredericks Shoveler Class of 1996 Rim Bishop Gregory J. Chomic Thomas Mueller Shoveler Class of 1997 * David L. Crowson Richard W. Fernandez Joseph Habraken * J.C. Holley
Shoveler Class of 1998 Charles C. Billias Michael D. Cliburn * C. W. “Mickey” Sheffield
Shoveler Class of 2013 Timothy McVeigh Darrell Milligan Paul Pinault
Shoveler Class of 1999 Robert Bailey Larry J. Ruffin Thomas Lothrop
Shoveler Class of 2014 Patrick Allman * Richard Griswold Christine Miranda
Shoveler Class of 2000 Jessie L. Carpenter Juan A. Citarella Julie L. Karleskint
Shoveler Class of 2015 Gregory Kolb Frederick Nugent Jeffrey Poteet
Shoveler Class of 2001 Luis Aguiar John Harward * Grady Sorah Richard Voorhees
Shoveler Class of 2016 Brad Hayes Rodney Shupler Brian Wheeler
Shoveler Class of 2002 Gary D. Dernlan Rudolph Fernandez Authur Saey * Kenneth Wilson Shoveler Class of 2003 Christine Ferraro William Edgar Kenneth Rearden Roy Pelletier Shoveler Class of 2004 Thomas Helgeson Raymond E. Hanson Robert Solomon Shoveler Class of 2005 Scott Kelly Holly M. Hanson Douglas Prentis Shoveler Class of 2006 * Lee Kraft O.H. “Sonny” Moss * David York Shoveler Class of 2007 Kartik Vaith Mark Cliburn * Edward James
Shoveler Class of 2017 Tom Evans Chris Fasnacht Sondra Lee Shoveler Class of 2018 Raymond Bordner Ron Cavalieri David Hartwig Shoveler Class of 2019 Clyde Burgess Tim Harley Patrick Murphy Shoveler Class of 2020 Tina Nixon Larry Hickey Mike Darrow Shoveler Class of 2021 Mike Sweeney Vaughan Harshman Jake Rohrich Shoveler Class of 2022 Chris Collins Keaton Heller Lynn Spivey
Shoveler Class of 2008 Chuck Hlavach Tim Madhanagopal Jon Meyer Shoveler Class of 2009 * Albert “Bill” Heller Jr. Mark McNeal Donna Kaluzniak * Donald Maurer Shoveler Class of 2010 Pamela Holcomb Thomas King Christopher Stewart Shoveler Class of 2011 Walter Barrett John Giachino George Lomax Shoveler Class of 2012 James Hope Nabil Muhaisen Lisa Prieto *Deceased
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FWRC 2022 – CONNECT AGAIN!
AWARDS Each year the Florida Water and Pollution Control Operators Association, Florida Water Environment Association, and Florida Section of the American Water Works Association honor outstanding individuals, utilities, and other organizations for contributions to the state’s water and wastewater industry. The awards were presented at the two lunches held during the conference.
FWEA Awards Earle B. Phelps Awards
Advanced Wastewater Treatment Facility First Place
Advanced Wastewater Treatment Facility Runner-Up City of Plant City Water Reclamation Facility Accepted by Mike Darrow.
JEA Nassau Regional Water Reclamation Facility Accepted by Anthony Fedderly.
Advanced Secondary Wastewater Treatment Facility 7 MGD and Greater First Place
City of Cape Coral Southwest Water Reclamation Facility Accepted by (left to right) Marcus Papp, Matthew Astorino, and Jeff Walter.
36 July 2022 • Florida Water Resources Journal
Advanced Secondary Wastewater Treatment Facility 7 MGD and Greater Runner-Up North Port Utilities City of North Port Wastewater Treatment Facility Accepted by Chad Nosbisch.
Advanced Secondary Wastewater Treatment Facility 7 MGD and Greater Honorable Mention JEA Arlington East Water Reclamation Facility Accepted by Leo Tamburini.
FWRC 2022 – CONNECT AGAIN!
Advanced Secondary Wastewater Treatment Facility 4 to Less Than 7 MGD First Place
Polk County Utilities Northeast Regional Wastewater Treatment Facility Accepted by Oswaldo Lopez.
Advanced Secondary Wastewater Treatment Facility 4 to Less Than 7 MGD Runner-Up
Polk County Utilities Southwest Regional Wastewater Treatment Facility Accepted by Todd Potter and William Altman.
Advanced Secondary Wastewater Treatment Facility 4 to Less Than 7 MGD Honorable Mention Lee County Utilities Three Oaks Water Treatment Facility Accepted by (left to right) Santino Sinabaldi, Robert Dick, John Hollingsworth, and Darvin Nelson.
Advanced Secondary Wastewater Treatment Facility Less Than 4 MGD Honorable Mention
Advanced Secondary Wastewater Treatment Facility Less Than 4 MGD First Place Town & County Utilities Babcock Ranch Water Reclamation Facility Accepted by Nathaniel Mastroeni.
Secondary Wastewater Treatment Facility First Place JEA Monterey Water Reclamation Facility Accepted by Josh Williams.
Secondary Wastewater Treatment Facility Runner-Up Polk County Utilities Sun Ray Wastewater Treatment Facility Accepted by Doug Lasseter.
Toho Water Authority Lake Marion Water Reclamation Facility Accepted by Rick Struckmeyer.
Secondary Wastewater Treatment Facility Honorable Mention
Polk County Utilities Waverly Wastewater Treatment Facility Accepted by Doug Lasseter.
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FWRC 2022 – CONNECT AGAIN! David W. York Water Reuse System of the Year Awards
WR3 Reuse Project of the Year
More Than 15 MGD
Bonita Springs Utilities Inc. Public Education Program Accepted by Andrew Koebel and Jake Hepokoski.
Hillsborough County Water Resources Dept. Purple Stingray Reclaimed Water Operations Team Accepted by Jennifer Kampwerth.
5 to 15 MGD
Lee County Utilities Three Oaks Water Reclamation Facility Accepted by (left to right) Santino Sinabaldi, Robert Dick, John Hollingsworth, and Darvin Nelson.
Wastewater Collection System Awards
Large
Medium
Broward County Water and Wastewater Services Accepted by Michael Kelly, Clive Haynes, and Marcia Loucraft.
North Port Utilities Accepted by Drew Johnson.
Safety Awards
Class A, First Place
Destin Water Users Inc. George French Water Reclamation Facility Accepted by (left to right) Chuck Rathke, Logan Law, and Rick Martin.
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Class A, Second Place
Gainesville Regional Utilities Combined Water Reclamation Facilities Accepted by Brett Goodman.
Class A, Third Place
JEA Buckman Water Reclamation Facility Accepted by Chris Howard.
Class B, Second Place
Class B, Third Place
Lee County Utilities Three Oaks Water Reclamation Facility Accepted by (left to right) Santino Sinabaldi, Robert Dick, John Hollingsworth, and Darvin Nelson.
Class C, First Place
Babcock Ranch Water Reclamation Facility Accepted by Nathaniel Mastroeni.
Biosolids Program Excellence Award
Village of Wellington’s Small Operating Program Accepted by Bryan Gayoso.
Toho Water Authority Lake Marion Water Reclamation Facility Accepted by Rick Struckmeyer.
George W. Burke Jr. Facility Safety Award
Class C, Third Place
Seminole Tribe of Florida Hollywood Wastewater Treatment Plant Accepted by Bassem Sanaallah.
Gainesville Regional Utilities Combined Water Facility Accepted by Brett Goodman.
Municipal Utility Operational Performance Excellence Award Palm Beach County Water Utilities Accepted by John Acton.
Municipal Utility Operational Performance Excellence Award Town & County Utilities Accepted by Jon Meyer.
Florida Water Resources Journal • July 2022
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FWRC 2022 – CONNECT AGAIN!
Albert B. Herndon Award Presented to Glabra Skipp.
Ralph H. Baker Award
Presented to Manasi Parekh.
L.L. Hedgepeth Award Presented to Nataly R. Colon Marquez.
Young Professional of the Year Award
Presented to Tonya Sonier.
Athur Sidney Bedell Award Presented to James J. Wallace.
Environmental Stewardship Award
JEA Accepted by Ryan Popko.
Delegate Service Award
Presented to Timothy Ware.
Water Reuse and Resource Professional of the Year Award
Presented to Hardeep Anand.
Public Education Awards
Campaign Category
City of North Port Trash It – Pet Waste Accepted by Coco Hibbitts.
Organization Category City of Ocala Wetland Recharge Park Accepted by Rusella Bowes-Johnson.
Leroy H. Scott Award Presented to George “Kenny” Wise.
40 July 2022 • Florida Water Resources Journal
FWRC 2022 – CONNECT AGAIN!
Golden Manhole Awards
Thomas T. Jones Award Presented to Jessica Green.
Presented to Keisha McKinnie.
Presented to Nicole Little.
Service Awards
Lifetime Membership
Presented to John Richard Voorhes. Presented to Bartt Booz.
Presented to Lisa Wilson-Davis.
Presented to Sondra Lee.
FWEA Welcomes New President With Passing of the Gavel Ronald Cavalieri (in left photo) accepts a plaque to commemorate his term as the 2021-2022 FWEA president at the organization’s annual meeting and awards luncheon held on April 26 at the conference. In photo at right, Ron presents the gavel to Sondra Lee to begin her term as FWEA president for 2022-2023.
Florida Water Resources Journal • July 2022
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FWRC 2022 – CONNECT AGAIN!
FSAWWA Awards Water Treatment Plants
Outstanding Class A
Outstanding Class B
Corkscrew Water Treatment Plant (Lee County) Accepted by Steve Matuska and Juan Quintero.
Most Improved Class A
Village of Wellington Accepted by Karla Berroteran and Drew Robinson.
Hollywood Reservation Water Treatment Plant Accepted by Bryan Fogle.
Most Improved Class B
S.K. Keller Water Treatment Plant Accepted by Michael Wilkes and Noralvys Hancock.
Drinking Water Treatment Plant Operator Meritorious Service Award
Presented to Austin Humphreys, Orange County Utilities.
42 July 2022 • Florida Water Resources Journal
Outstanding Class C
City of Tallahassee City Well 32 Accepted by Sondra Lee.
Most Improved Class C
Malcolm Road Water Supply Facility Accepted by (left to right) Paul Brown, Julia Siemen, and Marc Cannata.
Marvin N. Kaden Award for Outstanding Water Treatment Plant Operator Presented to Juan Quintero, Lee County Utilities.
FWRC 2022 – CONNECT AGAIN!
FWPCOA Awards David B. Lee Award
William D. Hatfield Award Presented to James Johnson.
Richard P. Vogh Award
Presented to Katherine Kinloch.
Reclaim
Presented to Mathew Astorino, City of Cape Coral.
Walt Smyser Website Award Pam Smyser (center) presents the award to (left) Joseph Forte and Steve Juengst with City of Holly Hill.
Wastewater
Presented to Charles Nichols Jr., Polk County Northeast Regional Wastewater Treatment Plant.
Water
FWEA Florida Select Society of Sanitary Sludge Shovelers
Presented to (left to right) Chris Collins, Lynn Spivey, and Keaton Heller.
Presented to Cody Jordan Diehl, Polk County Utilities.
Florida Water Resources Journal • July 2022
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F W R J
Emerging Renewal Technologies for Pressurized Pipelines Steve Soldati
P
ipelines that carry flows under pressure represent a special set of challenges for water and sewer rehabilitation. Historically, most pressurized pipelines were rehabilitated using open cut construction. Part of the reason for that choice has been a lack of trenchless rehabilitation technologies appropriate for pressurized pipelines. A lack of investment in aging pressure pipe infrastructure, coupled with increasing congestion (both above and below ground) has accelerated development in the trenchless rehabilitation industry. This article reviews the concept of structural classification for pressure pipe linings as defined by the American Water Works Association (AWWA), and where emerging trenchless renewal technologies fit within the AWWA classification framework. Five case studies are presented that utilized separate trenchless products for pressure pipe rehabilitation: S Carbon or glass fiber-reinforced polymer (FRP) S Cured-in-place pipe (CIPP)
S T ight-fit high-density polyethylene (HDPE) pipe S Fusible polyvinyl chloride (Fusible PVC®) pipe S Hose lining system Discussed is the engineering, material construction, installation, and cost-effectiveness of each product with the intent to demonstrate the strengths and limitations of each.
The State of Aging Infrastructure The AWWA recently published its “2020 State of the Water Industry” survey, which identifies critical topics and tracks trends to help raise awareness within the water industry. This survey covers all aspects of the industry, including infrastructure assets, water quality, water resources, and agency staffing. The one thing that stands out the most from the report is that, for the fifth consecutive year, renewal and replacement of aging water and wastewater infrastructure, and financing for capital improvements, have ranked as the top one and two issues, respectively, facing the industry.
Steve Soldati, P.E., is regional sales manager of pressure pipe–east region with Aegion Corp. in Tampa.
The Cost of Doing Nothing Asset management 101 says that the longer the wait to address an aging asset, the more expensive it will be to replace, renew, or rehabilitate it. Take roadway pavement for example. Over time, as cars and trucks ride over the pavement, it slowly degrades and develops tiny vertical cracks at the surface. As the vehicle flows continue, those tiny cracks begin to propagate deeper into the pavement thickness. In the early years of these cracks, they are shallower, and it takes only a minimal thickness to remove and repave with new asphalt to restore the roadway free of cracks. If that same roadway, however, wasn’t repaved until several years later, those cracks would be much deeper (if not full depth), much more asphalt would need to be replaced, and therefore, it would increase the cost substantially. This causes a higher replacement cost, but is also much more disruptive to the traveling public and the local community.
Traditional Methods of Replacement and Its Hardships
Figure 1. Selection of rehabilitation techniques to resolve water quality problems.
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The traditional method of addressing pressurized pipelines has been to dig and replace. This is a conservative method to restore structural integrity, improve water quality, protect pipes from further corrosion, and reduce maintenance costs. This method, in some instances, can be the best path forward, given that the pipeline is in an open space with easy access, little or no other utility conflicts exists, and/or the pipe depth is relatively shallow. The problem with many pipelines needing to be replaced today is that it isn’t always a preferred site condition that makes dig and replace a clear winner. There has been continued development built on top of existing pipelines, additional other utility infrastructures put Continued on page 46
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Continued from page 44 in the ground, and easement and access agreements that have changed. These scenarios add a layer of complexity and consideration to rehabilitate the pipeline in question. Another critical aspect is the need for urgent and emergency response for failing infrastructure. Often times, an engineering firm is heavily involved, and the process to move from condition assessment, to design, and then to construction bid is lengthy and is not set up as well for urgent or emergency projects. The AWWA Manual M28, Rehabilitation of Water Mains, provides guidance on identifying the key elements for rehabilitating a pipeline. It provides both owners and engineers the tools to move from concept, to design, and ultimately, to rehabilitation work in the field.
There is Hope
Figure 2. Selection of rehabilitation techniques to resolve water flow, pressure, and leakage problems.
`The challenge with the renewal and replacement of infrastructure is that society relies on this infrastructure every day. The unfortunate reality is that there is a cost to doing nothing, as stated previously, in fear of too much disruption to daily life, and there is a cost to having to shut down operations for an extended amount of time to address the aging infrastructure that is at risk of failing at some unknown point in the future. This can be a “Catch 22” scenario, with either direction that’s chosen becoming too burdensome. Technological advancements over the past several years have provided additional construction options that can improve the operational downtime, reduce total project costs, and achieve the project goals. The old construction adage is, “Among quality, budget, and schedule, you can pick two.” This simply means that if you want a project to be high quality and fast, it’ll be expensive; for it to be high quality and cheap, it will take a long time; and for it to be inexpensive and fast, it will be poor quality. These are the factors of any project that owners and engineers usually weigh for making the decision to move forward with a particular solution. The challenges that various utility agencies and municipalities face, with reduced project costs and reduced schedules—while providing a high-quality result—are the same goals shared by private and other industry sectors. The question is how infrastructure, or assets, can be replaced or renewed, while minimizing downtime in the most cost-effective way.
Choosing the Right Solution Figure 3. Selection of rehabilitation techniques to resolve structural problems.
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Knowing where to begin with the right
rehabilitation path is critical. Understanding the existing pipe condition and design will set the proper foundation for moving forward with the appropriate trenchless method. The AWWA M28 has assisted in this assessment and the selection process of the right rehabilitation technique using the decision trees, as shown in Figures 1, 2, and 3. Although M28 is geared toward water mains, many of the same principles can be applied to other pressurized pipelines. Many of the aging pressure pipes are in need of a structural solution, so Figure 3 will be the most common guidance for selecting the right rehabilitation method.
Innovative Technologies Using Trenchless Technologies There are several trenchless technologies available for various pipeline applications, with each technology having its preferred application, given the site parameters, design, and existing pipe layout. Cured-in-Place Pipe The CIPP is engineered and manufactured to project specifications and can be designed as an interactive or independent solution to meet pipe rehabilitation goals. This pipe-within-apipe, as shown in Figure 4, has the ability to rehabilitate any pipeline to a fully structural
M28 Class IV solution, such that the existing host pipe can deteriorate away and the owner is left with a brand new pipeline. The CIPP can be installed up to several hundreds of ft at one time and does not hinder the flow capacities of the pipelines. With only two small excavation pits on either end of the installation, the rest of the facility operations above the pipeline will not be disrupted during the rehabilitation process. The City of West Palm Beach had embarked on one of the largest projects of its kind to rehabilitate a more than 40-year-old prestressed concrete cylinder pipe (PCCP) force main running directly through a golf course, densely populated neighborhoods, and stormwater ponds. A condition assessment concluded that the number of pipes segments with broken wire wraps provided a significant risk of failure. Traditionally, an open cut or sliplining operation would be the chosen path forward; however, both traditional options were rejected due to the cost and disruption of the open cut replacement and the drastic loss of the slipline. With these project parameters, the best solution was the close-fit CIPP, which provided minimal disruption to the residential neighborhood and golf course, while providing a fully structural M28 Class IV solution that maintained pressure rating and flow capacity.
Figure 4. Cured-in-place pipe structure.
Figure 6. High-density polyethylene pipe diameter.
Hose Lining The advancement of hose lining systems has made it possible to address leaking or failing joints of pipelines using a slipline installation, which consists of pulling a new smaller pipe within the larger existing pipe, resulting in smaller work zones and smaller equipment for those harder-to-access pipelines. Hose liners are a simple three-part construction consisting of an inner and outer layer, with an internal reinforcing layer that provides the liner its full pressure capacity, as shown in Figure 5. The hose lining systems are intended to be the M28 Class III solution, such that the new hose will withstand the internal pressures, but rely on the continued support of the existing host pipe from the external forces, such as soil, groundwater, and live loading. Hose lining materials require no resin curing (as with CIPP) and no long pipe laydown areas, similar to PVC or HDPE material, and are fused together to then be pulled into the pipeline during one active slipline pull. The benefits of using the hose lining system are that it can be installed much quicker than CIPP due to the installation time and the fact that there’s no curing involved. In addition, the equipment is much smaller, so a smaller footprint is required for installation. The Elizabeth River Tunnel in Virginia had a Continued on page 48
Figure 5. Hose lining.
Figure 7. Insertion of the carrier pipe.
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Figure 9. Fiber-reinforced polymer application inside a pipeline.
Figure 8. Fiber reinforcement.
Continued from page 47 unique challenge that involved several thousand ft of fire and storm drain piping that was embedded in the tunnel concrete and had limited access to the pipeline itself. This made it difficult to mobilize the necessary equipment for most rehabilitation options. Since the piping was embedded in concrete, the external structure of the existing pipe was irrelevant and the internal rehabilitation was the primary focus to accommodate the internal pressures. The Class III solution allowed for the required installation equipment to be mobilized adjacent to the pipe location. Tight-Fit High-Density Polyethylene Pipe Lining Treddyfin Township, Pa., needed to rehabilitate 18,000 ft of 30-in. PCCP force main that had experienced major failures in its Valley Force National Historic Park. This pipe was more than 40 years old and had experienced
three separate failures that expedited the need to address this pipeline with a structural solution. After review of different options, including open cut replacement, it was determined that a tight-fit HDPE rehabilitation was the best solution to meet the structural and flow capacity requirements. Since this pipeline was located in a difficult area, which included an historic site, heavily wooded land, and river crossings, the ability for this rehabilitation technique to achieve long installation lengths, while minimizing the disruption to the area, deemed it most beneficial. As shown in Figure 6, the HDPE pipe diameter is temporarily reduced through the Poisson effect, as the HDPE pipe is actively pulled through the host pipe. The use of a powered roller box at the insertion end assists with this procedure to reduce the overall stresses on the HDPE pipe during the active slipline procedure. A total of 31 installations sections were
Figure 10. Targeted repair schematic.
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installed using DR 26 and DR 32.5 HDPE pipe, with the longest section topping 1,500 ft. The DR is the ratio of the pipe outer diameter to the pipe minimum wall thickness. The lining system was designed to be slightly larger than the host pipe at 30.05 in. internal diameter. This was a critical wastewater pipeline that needed to keep its flow capacity. The tight-fit HDPE solution was selected because it maintained maximum flow and was able to maximize the installation length, resulting in minimal disruption to the historically sensitive land. The unique installation method protected the habitats of the environment along the river. Fusible Polyvinyl Chloride Pipe Using Horizontal Directional Drilling A vast majority of the rehabilitation options available throughout the industry incorporates the existing location and layout of the host pipe. The only trenchless option that does not involve using the existing pipe is installing new pipeline using horizontal directional drilling (HDD). Not only can HDD be used for address failing pipelines, but it can also be used for pipe system expansions, making it a versatile solution for many pipeline projects. Figure 7 shows the insertion of the carrier pipe. The benefits of HDD—with Fusible PVC— become apparent when project constraints and other project goals limit the feasibility or costeffectiveness of other rehabilitation options. This was the case for a project in Panama City Beach. The project involved the installation of 5,400 ft of 24-in. Fusible PVC by HDD. The installation needed to cross a large body of water and setting up a bypass was next to impossible, which is required with other rehabilitation methods. With the HDD installation technique, the new pipeline was installed, while keeping the existing pipe in operation. Once the installation was complete, a quick turnover to the new pipeline was accomplished.
Fiber-Reinforced Polymer Pipe The FRP pipe is typically for the largerdiameter pipelines (manned entry) when access is extremely limited and/or spot repairs are needed. The other aspect of FRP is for complicated pipe geometry. Other trenchless solutions rely on a more standard pipe profile; however, FRP can be applied to complex pipe geometry with unusual bends, fittings, and other nonstandard type of arrangements. Due to FRP being a hand-applied material, the flexibility to adapt to unique pipe layouts and special features should be considered by the owner or engineer. The FRP dry material (Figure 8) is saturated with an epoxy that is then placed on the internal diameter of the existing pipe, as shown in Figure 9. The proper scaffolding, access support, and ventilation are set up prior to the installation. As each layer of FRP is applied, it bonds to the other layers that were recently placed. In the case of a pipeline needing a spot repair or rehabilitation, as shown in Figure 10, FRP can be applied in short segments and does not rely on needing the end of a cut host pipe to be installed.
Why Choose Trenchless Technology? Pipeline rehabilitation technologies will continue to develop as the industry gains a better understanding of various material properties and their application in the field to meet the needs of clients all around the world in different industries. With a growing population and expansion of other infrastructure, it’s critical to provide more cost-effective and timely solutions to address buried pipelines. The advancement of material performance and availability of technologies that could provide a more optimal “fit” for a particular problem will give owners and engineers more options to address their aging infrastructure. With the advancement of technology and pipe options available, having the proper guidance and tools will also be equally important, and tackling the aging infrastructure hurdle may not seem as burdensome or impossible.
References • “ 2020 State of the Water Industry: A Glass Half Full.” Dawn Flancher, Kathleen Chaballa. Journal AWWA, July 2020. • AWWA M28, Rehabilitation of Water Mains, Third Edition • A egion Corp. (photos). S
IN MEMORIAM
William Palan Allman 1937 – 2022
William Palan Allman, lovingly known as “Bill,” “Daddy,” “Papa, “and “Black Rabbit,” went home to be with Jesus on May 28, 2022, at age 84. William was born to the late Ernest and Melvina Allman on July 3, 1937, in Kissimmee. He was a fifth-generation Floridian. As a child he loved climbing trees and splashing in puddles with his brother, Albert, and his sister, Jean. These close relationships would carry on through adulthood. In 1955 William met the love of his life, Barbara. They married on May 1, 1960, in St. Cloud. This was the beginning of 62 years of love and adventures together. Their dedication to each other, along with always placing Jesus at the center of their marriage, carried them through life’s mountains and valleys. William was a doting father to daughter, Celeste, creating a “daddy’s girl” from the very beginning. He happily became “Papa” to some of Celeste’s closest friends, providing them with the loving father they needed. This title was multiplied when he was promoted to grandpa. His grandchildren and greatgrandchildren were his greatest joys. Not a day went by when William didn’t talk about how much his family meant to him. He had a longstanding career with the wastewater industry, beginning with the City of Kissimmee in 1955; he then transferred to the City of Orlando in 1960. He studied, worked, and managed all areas of wastewater treatment, obtaining his Class A license in 1962. He would go on to manage several wastewater treatment plants in the area. This included helping to design, build, and manage the Iron Bridge Water Pollution Control Facility, and managing the personnel needed to handle the rapid expansion of the Walt Disney World area. After managing the Iron Bridge facility for 18 years, William retired from the city in 1996 after 36 years of dedicated service. This did not mean he stopped working.
William loved giving back to the industry by creating and teaching courses; designing and proctoring exams in various programs, such as short schools and classes; and serving on the Florida Water Pollution Control Operators Association (FWPCOA) Education Committee. At the time of his homegoing, William maintained the sixtholdest wastewater operating license and the 11th-oldest drinking water license in the state of Florida. In addition to being a dedicated husband, doting father, and the best “Papa” to his grandchildren and great-grandchildren, William also loved to spend time with extended family and friends. He was always up for a get-together, especially a good southern barbecue, where he often manned the grill. Throughout his life, William held an unwavering faith in God, which he shared with those around him. He was active in his church, teaching Sunday school and serving as a deacon. He loved to serve others and did so with all of his heart. When he did finally slow down you could find him in his easy chair with a good Western on TV and his cat at his feet. William is survived by his loving wife, Barbara; his daughter, Celeste [Lee] Allison; his sister, Jean Allman; his grandchildren: Tristin[James] Fuller, Stephanie[Karl] Furno, Matthew[Sarah] Fishbaugh, Jackie Allison, and Terra Allison; many great-grandchildren; and a large extended family, with countless friends. In lieu of flowers, the family requests that donations be made to the following: • Florida Sheriffs Youth Ranches Inc. at https://www.youthranches.org<https:// www.youthranches.org/> or P.O. Box 2000, Boys Ranch, Fla. 32064 • Boys Town at https://www.boystown. org<https://www.boystown.org/> or 200 Flanagan Blvd., P.O. Box 6000, Boys Town, S N.E. 68010-9988
Florida Water Resources Journal • July 2022
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Stormwater Management Planning: Does it Matter? Erica Benson In the 1990s, the U.S. Environmental Protection Agency (EPA) amended the Clean Water Act to address a growing problem—the lack of proper stormwater management planning. “Why does stormwater planning matter?” you may be thinking. Well, did you know that in the 1970s two-thirds of the waters in the United States were unsafe for fishing and swimming? Stormwater runoff was one of the main sources of this pollution, which is why the Clean Water Act requires many municipalities to create a stormwater management plan to ensure that debris, pollutants, and chemicals from storm sewers and construction sites do not find their way to the nation’s waters.
What is a Stormwater Management Plan? A stormwater management plan helps to reduce pollution and contamination by controlling runoff of rainwater or melted snow. There are two different kinds of stormwater plans: S Stormwater Pollution Prevention Plan. This is a temporary plan designed to mitigate any stormwater issues created by a construction project. S Stormwater Management Plan. This kind of plan is created by a variety of entities, most notably, municipalities that have a municipal separate storm sewer system (MS4), rather than a combined sewer and stormwater system. This article will primarily focus on stormwater management plans.
Why is it Critical to Manage Stormwater? Developing the land disrupts nature. This disruption affects stormwater when it limits and impedes the natural flow of water and the ground’s ability to soak it up. Additionally, as this occurs, water runoff becomes contaminated. As water rolls over any impermeable surfaces (e.g., rooftops, roads, sidewalks, etc.), harsh chemicals in these locations can pollute the water. If and when these chemicals reach local natural waterbodies, they can harm and potentially kill any plants or wildlife nearby. Furthermore, humans can also end up at risk because these waterbodies can be sources of drinking water. Even the smallest storm can create water runoff problems, which is why managing runoff is essential through a stormwater management plan.
What Are the Main Problems That Stormwater Runoff Can Create? The top problems created by stormwater runoff include: Pollution Pollution occurs when water flows over impervious surfaces and collects the chemicals on top of them. Because developed areas host countless harmful substances, they can cause severe damage if they enter a natural body of water. When this occurs, ecosystems suffer and drinking water is contaminated.
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Erosion Water flows off impervious surfaces and forms new paths. Whenever water moves over land it never has before, it can cause deterioration. This may also be detrimental to both ecosystems and local communities. Flooding Stormwater runoff can overflow drainage ditches, sewage systems, and storm drains unless there is proper management in place. This flooding can be inconvenient—if not dangerous. Turbidity Even if water finds land that can absorb it, it may increase sedimentation. This is called turbidity, or muddiness, which ruins nearby land. Infrastructure Damage All of the issues mentioned (flooding, erosion, pollution, and turbidity) can wreak havoc on the local infrastructure.
What Are the Goals of a Stormwater Management Plan? The goals of a stormwater management plan include: S Reducing flood damage (including damage to life and property). S Minimizing any increase in stormwater runoff from new development. S Reducing soil erosion from development or construction projects. S Assuring the adequacy of existing and
S S S S
S
proposed culverts, bridges, and other instream structures. Maintaining groundwater recharge. Preventing an increase in nonpoint pollution. Maintaining the integrity of stream channels for their biological functions, as well as for drainage. Minimizing pollutants in stormwater runoff from new and existing developments to restore, enhance, and maintain the chemical, physical, and biological integrity of the waters of the state. This protects public health, safeguards fish and aquatic life, and maintains scenic and ecological values, which enhances the domestic, municipal, recreational, industrial, and other uses of water. Minimizing pollutants in stormwater runoff from new and existing developments to protect public safety through the proper design and operation of stormwater basins.
S S S S
ho needs to do it W How much they need to do Where it’s to be done When they need to get it done
How Does a Stormwater Management Plan Affect a Municipality? As part of a stormwater management program, municipalities will often have regulations on new development. Some developers mistakenly
believe that, because there is already a municipal storm sewer in place, all they need to do is tap into it. These systems, however, can only handle so much, and having an excess of water runoff can lead to flooding or damage to the infrastructure. This means that a municipality may be required to keep as much storm runoff onsite as possible. Fortunately, there are many onsite stormwater control measures, including: S Bioretention areas/rain gardens Continued on page 52
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How Does Stormwater Runoff Affect Us?
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Stormwater runoff is one of the largest remaining major sources of pollutants in our nation’s waters. In fact, according to EPA, it’s estimated that over 40 percent of existing water pollution problems are attributable to nonpoint source pollution.
• Master Planning and CIP updates
• System Capacity Evaluations • R&R Design Permitting • R&R CEI/RPR Services
Who Must Create a Stormwater Management Plan? Municipalities must apply for a permit under the EPA National Pollutant Discharge Elimination System (NPDES) if they have an MS4. In order to obtain an NPDES permit, the municipality must draft a stormwater management plan.
What’s Included in a Municipality’s Stormwater Management Program and Plan? The stormwater management plan should outline a program with the following elements: S Public education and outreach S Public participation and involvement S Illicit discharge detection and elimination S Construction site runoff control S Postconstruction runoff control S Pollution prevention and good housekeeping When these elements are implemented in concert, they are expected to produce a significant reduction of pollutants discharged into receiving waterbodies. In addition, the stormwater management plan for the program should also be clear about the following: S What needs to happen
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Florida Water Resources Journal • July 2022
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Continued from page 51 S Constructed wetlands S Curb and gutter elimination S Drainage ditches S Permeable pavements S Rain barrels and cisterns S R iparian buffers S Sand and organic filters S Vegetated filter strips S Vegetated swales/dry swales Which of these systems to implement will ultimately depend on the project and location. The local county or city will have certain requirements, and a project will need to cater to the guidelines provided.
What Are the Pros and Cons of Managing Stormwater Onsite? Managing surface runoff onsite is largely beneficial, but it does require planning and thought. Here are some pros and cons. Pros S Proper drainage of surface runoff S Ability to recharge groundwater and reuse precipitation water and surface runoff as irrigation or household water S Treatment of stormwater in a very early stage S Avoid damage to infrastructure (private properties, streets, etc.) S Flood prevention S Can be integrated into the urban landscape and provide green recreational areas Cons S Expert planning, implementation, operation, and maintenance required
S A lot of operation and labor required depending on the technique S R isk of clogged infrastructure caused by high sedimentation rates
How Does a Municipality Fund a Stormwater Management Plan? Obtaining funding for a stormwater management plan is one of the most crucial steps in the stormwater management process. The EPA notes that finding the lowest-cost funding methods can be challenging for municipalities. As such, permittees often rely on local revenue bonds or State Revolving Funds for capital to fund combined sewer overflow (i.e., stormwater and sewer) controls. Generally speaking, there are two categories of funding that municipalities can obtain. The first is capital funding and the other is annual funding. S Capital Funding. This includes bonds, loans, grants, privatization, and any other capital funding options, like special reserves and assessments. S Annual Funding. This includes fees, taxes, and miscellaneous funds, like proffers and capacity credits.
How to Get Others Involved Municipalities often involve the public during the planning process of their stormwater management programs, so organizations can host public meetings to discuss them. In addition, EPA encourages wider community outreach by suggesting a municipality do the following:
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S S S S S S
Identify key users and groups Establish an advisory committee Create a stormwater utility website Prepare pamphlets and presentations Meet with key user groups and the media Distribute information before initial billing
What Type of Reporting and Documentation Will a Municipality be Required to Undertake? The type of reporting that a municipality does on its stormwater management plan will depend on several factors. At a high level, many municipalities will generate reports on the following items: S Compliance with the NPDES permit S The effectiveness of the stormwater management project S The chemical, physical, and biological impacts to receiving waters resulting from stormwater discharges S Stormwater discharges S Sources of specific pollutants S Long-term trends in receiving water quality
Plans Do Matter! A stormwater management plan is a detailed document that includes all of a municipality’s efforts to mitigate the impact of stormwater. While time-consuming, these plans can help to drastically reduce the impact of stormwater on the environment and protect local land, wildlife, and residents. Erika Benson is a land investor and cofounder of Gokce Capital LLC in New York City. S
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Florida Water Resources Journal • July 2022
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Test Yourself
What Do You Know About Water and Wastewater Management? Donna Kaluzniak
1. P er California State University at Sacramento’s “Manage for Success – Effective Utility Leadership Practices” (Manage for Success), when interviewing an applicant for employment, managers should structure the interview so that the candidate is speaking more than half the time by answering what type of questions? a. Q uestions about how the candidate spends their personal time. b. Questions about work experience that elicit a yes or no answer. c. Q uestions that are open-ended, dealing with the candidate’s work experience. d. Questions about a candidate’s family. 2. P er “Manage for Success,” what would be an acceptable pre-employment inquiry or statement during the job interview? a. Have you ever been arrested? b. Do you have any physical disabilities? c. D o you attend religious services on Sundays? d. What languages do you read, write, or speak fluently? 3. P er “Manage for Success,” what type of management style is defined as, “The manager maintains a nonthreatening, regular presence in employee work areas, personally communicating with the employees on work items of mutual interest and or concern.” a. b. c. d.
Management by Development Management by Communication M anagement by Expertise Management by Walking Around
4. P er “Manage for Success,” which management assessment program is a voluntary American Water Works Association (AWWA) benchmarking
program to help utilities achieve total quality performance in all areas of their operations? a. E nvironmental Management System (EMS) b. Management Assessment Profile (MAP) c. QualServe d. Six Sigma 5. P er “Manage for Success,” decisions can be classified based on their purpose or the level of impact to the organization. What decisions are described as those that set, change, or directly affect the objectives, resources, and policies of the organization, and affect the utility’s mission, vision, and goals? a. b. c. d.
anagement control decisions M Operational decisions Strategic decisions Transactional decisions
6. P er the Water Effective Utility Management website, the Ten Attributes of Effectively Managed Water Sector Utilities describe desired outcomes that are applicable to all water and wastewater utilities. One of the ten attributes, “Ensures utility leadership and staff work together to anticipate and avoid problems,” would be described as a. E mployee Leadership and Development. b. Operational Optimization. c. Operational Resiliency. d. Infrastructure Stability. 7. P er the Water Effective Utility Management website, there are five keys to management success: Leadership, Strategic Business Planning, Organizational Approaches, Measurement, and a. F inancial Assessment. b. Employee Recruitment and Retention. c. Continual Improvement Management Framework. d. Community Sustainability.
54 July 2022 • Florida Water Resources Journal
8. P er the Water Effective Utility Management website, there are two general approaches to performance measurement: benchmarking and a. environmental management systems. b. i nternal performance measurement. c. target completion measurement. d. statistical quality control. 9. P er “Manage for Success,” the first step in developing managerial technical skills is understanding how and why the facility was designed. Managers must then ensure that it operates the way it was designed by developing a formalized a. b. c. d.
o perating protocol (OP). p rocess control program (PCP). t roubleshooting guide (TG). s tandard operating procedure (SOP).
10. P er “Manage for Success,” the selection and scheduling of multi-year physical improvements, such as the phased replacement of wastewater pumping stations, is a. b. c. d.
a capital expenditure. c apital improvement planning. p art of the operating budget. s trategic planning. Answers on page 86
References used for this quiz: • C ampbell, Dan and Cherniak, Mike. California State University, Sacramento. “Manage for Success – Effective Utility Leadership Practices.” 1st Edition, 2005. • Effective Utility Management Collaborative Effort Website. Effective Utility Management. https://www.watereum.org/
Send Us Your Questions Readers are welcome to submit questions or exercises on water or wastewater treatment plant operations for publication in Test Yourself. Send your question (with the answer) or your exercise (with the solution) by email to: donna@h2owriting.com
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Florida Water Resources Journal • July 2022
55
Benefiting
The Roy Likins Scholarship Fund
Aging Well- Protecting Our Infrastructure The FSAWWA Fall Conference brings together utilities, consultants, manufacturers, regulators, and students. Register and learn from the industry’s best through technical session, workshops, and exhibits. Network with water industry professionals. Over 160 exhibitors will give you first-hand information on the latest developments to help your utility take actions to implement Florida’s future.
Exhibitor Registration: Registration opens June 1, 2022 www.fsawwa.org/2022exhibits
Attendee Registration: Starts August 1, 2022 fsawwa.org/2022fallconference
For more information: fsawwa.org/2022fallconference Hotel Accommodations: fsawwa.org/2022hotel Host hotel is Hyatt Regency Grand Cypress
CHEER for Meter Madness!
Prep for HYDRANT Hysteria!
Let loose at the RODEO!
Join the Tapping FUN!
Technical Sessions
• Cybersecurity • Asset Management and GIS • Sanitary Sewer Systems • Potable Reuse • PFAS/PFOS • Emerging Water Quality Issues (UCMR 5 Testing, LCRR, etc.) • Alternative Water Solutions – • • • • •
No-Surface - Discharge Rule, I Need More Water! Solutions for Water Treatment Challenges Hydraulic Modeling – Solutions to Increase Knowledge and Address Challenges Funding the Utility System Workforce planning – Is It Us? Water Conservation
Conference Highlights
• BBQ Challenge &
Incoming Chair’s Reception
• Operator Events:
Meter Madness Backhoe Rodeo Hydrant Hysteria Tapping Competition
Professionals Events: Aging Well - Protecting • YoungLuncheon Water Bowl Our Infrastructure
Fresh Ideas Poster Session
• Water for People’s Fundraising Events: Exhibitor’s Raffle Fundraiser
Events
Looking forward to seeing you at the Hyatt Regency Grand Cypress on November 27 to November 30, 2022.
Poker Tournament Monday, November 28, 2022 Starts at 9:00 pm TopGolf Tournament Wednesday, November 30, 2022 8:00 am Shotgun start
Exhibit Schedule Aging Well- Protecting Our Infrastructure
Exhibit Registration Starts June 1, 2022
Monday, November 28 Set-up: 7:00am - 3:00pm Meet and Greet: 4:00 - 6:00pm
Tuesday, November 29
Hall Open: 8:00 - 11:30am | 1:30 - 6:00pm Meet and Greet: 4:00 - 6:00pm
Wednesday, November 30 Standard Booth @ $900 Includes:
• 8-foot X 10-foot booth space • One (1) six-foot draped table • Backdrop • Side drapery • Two (2) chairs
• Company sign • Wastebasket • Three (3) exhibit staff registrations • Additional exhibit staff $50/each
Exhibit booth spaces can include heavy equipment, workshops, portable equipment and showrooms. Flammable materials are prohibited. No modifications will be made to the backdrops or sidewalls without approval from the Exhibits Chair.
Online Registration is strongly recommended!
Hall Open: 8:00am - 12:00pm Tear Down: 1:00 - 6:00pm
Sponsorship Levels Premier | $1700
15% discount on 8’x10’ booth
Platinum | $1000
15% discount on 8’x10’ booth
Gold | $800
10% discount on 8’x10’ booth
Online Exhibitor registration at: www.fsawwa.org/2022exhibits
For additional info on sponsorship levels and benefits, visit:
No Refunds after September 1st.
Please Note: All promotional activity other than product demonstrations must be approved by FSAWWA prior to the conference.
Hotel Accommodations: fsawwa.org/2022hotel
www.fsawwa.org/2022sponsor
Aging Well - Protecting Our Infrastructure Looking forward to seeing you at the Hyatt Regency Grand Cypress on November 27 to November 30, 2022.
Thank you for your interest in the FSAWWA.
Aging Well- Protecting Our Infrastructure
2022 Water Distribution System Awards
Divisions based on the Number of Water Services Division 1 = 1 - 5,999 Division 2 = 6,000 - 12,999 Division 3 = 13,000 - 19,999
The FSAWWA Water Distribution System Awards are presented to utilities whose outstanding performance during the preceding year deserves special recognition by the section.
Division 4 = 20,000 - 29,999
The Award Criteria is based upon the following:
Division 7 = 70,000 - 129,999
Water Quality Operational Records Maintenance Professionalism Safety Emergency Prepardness Cross Connection Control Program Must be an AWWA member (Organizational or Individual) Actively supports the activities of the FSAWWA Demonstrates high standards and integrity The selection committee is under the Manufacturers/Associates Council.
Division 8 = 130,000+
• • •
Division 6 = 46,000 - 69,999
Send applications to: Mike George 10482 Dunkirk Road Spring Hill, FL 34608 tapitflorida@att.net
Deadline
2021 Winners: Division 1: Division 2: Division 3: Division 4: Division 5: Division 6: Division 7: Division 8:
Division 5 = 30,000 - 45,999
Not Awarded South Walton Utility Co., Inc. City of Zephyrhills Utility Department Bonita Springs Utilities, Inc. City of Boca Raton Utility Services Department Broward County Water and Wastewater Services Lee County Utilities Water Distribution Hillsborough County Public Utilities Department
Friday, October 21, 2022 Download the application form:
www.fsawwa.org/ distributionawards
E W Looking forward to seeing you at the Hyatt Regency Grand Cypress on November 27 to November 30, 2022.
58 July 2022 • Florida Water Resources Journal
Thank you for your interest in the FSAWWA.
Aging Well- Protecting Our Infrastructure
Join the Competition
2022 Competitions
Tuesday & Wednesday, November 29 - 30, 2022
Let loose at the RODEO!
fsawwa.org/2022fallconference FSAWWA hosts fun and lively competitions between municipalities to find the most skilled person or team in the Meter Madness, Tapping, Hydrant Hysteria, and Back Hoe Rodeo contests. Please join us as a spectator or visit our website to download the application to complete.
Join the Tapping FUN!
Back Hoe Rodeo: Tuesday | 10:00 am - 12:00 pm
Backhoe operators show off their expertise by executing several challenging lifts and drops of various objects in the fastest time.
Tapping Contests: Tuesday | 11:00 am - 2:30 pm
In a contest of skill and dexterity as well as speed, teams of four compete for the fastest time while they perform a quality drill and tap of pipe under available pressure. Penalties are assessed in seconds for infractions of rules such as leaking connections or safety violations. Only two taps are allowed per team.
CHEER for Meter Madness!
Ductile Iron Tap: 11:00 am - 12:00 pm Fun Tap: 1:00 - 2:30 pm
Meter Madness: Tuesday | 4:00 - 5:00 pm
Contestants are challenged to put together a completely disassembled meter against the clock. To make the contest more interesting, three to six miscellaneous parts are included in the bucket of meter components. Once the meter is assembled, it must operate correctly and not leak.
Prep for HYDRANT Hysteria!
Hydrant Hysteria: Wednesday | 9:00 - 11:00 am
Hydrant Hysteria is a fast paced two person competition as to who can assembly a fire hydrant quickly, totally, and accurately. Two or more teams go head to head while assembling the hydrant. All parts will be assembled in proper manner and reassembled hydrant shall be tested by the judges for ability to operate correctly.
Sponsorship Opportunities Please Contact: Mike George tapitflorida@att.net (352) 200-9631
Looking forward to seeing you at the Hyatt Regency Grand Cypress on November 27 to November 30, 2022.
Thank you for your interest in the FSAWWA. Florida Water Resources Journal • July 2022
59
L ET’ S TA LK S A FE TY This column addresses safety issues of interest to water and wastewater personnel, and will appear monthly in the magazine. The Journal is also interested in receiving any articles on the subject of safety that it can share with readers in the “Spotlight on Safety” column.
Jackhammer Safety One of the most powerful tools used in the water utility industry is the jackhammer, which is designed to break asphalt, concrete, and rocks. Without proper training and personal protective equipment (PPE), workers can inflict serious injury to their feet and other parts of the body, as well as injure others nearby, while operating this tool.
Differences in Jackhammer Types There are two types of jackhammers: the pneumatic drill and the electric drill. While they do the same job, each machine runs differently than the other. The electric jackhammer is often used for small jobs, such as breaking concrete and making small holes in the ground. This jackhammer is powered by plugging it into an electrical socket. There are various models of electric jackhammers, which come in different watts and amps.
A pneumatic jackhammer is powered by air. A rubber hose connects it to a compressor that pumps air into the jackhammer. The compressor is run by gasoline. This jackhammer is small enough to be portable so it can go to all worksites, but is great for big jobs and construction areas.
Before Operation Before operating any kind of jackhammer, consider the following precautions: S Always wear proper PPE, which includes eye protection; long sleeve clothing; sturdy full-length pants; steel-toe boots or shoes; respiratory, head, and hearing protection; and safety gloves. S Know how to safely operate the supply compressor—especially in emergencies. S Place the compressor as far as possible from the work area to reduce the level of noise.
S R egularly inspect the jackhammer and other necessary tools for defects or damage. S Check that components are complete, securely in place (or tightened), and in good condition. Do this before every shift or start of operation. S Check air hoses for breaks, cracks, and worn or damaged couplings. S Ensure that the rating of the hose is sufficient for the job intended. S Inspect the electrical cord for frays, wear, and other signs of damage. S Inspect the tool’s breaking point. Never use a broken or cracked point.
During Operation Stay safe when operating a drill by doing the following: S Sling the electrical cord onto your shoulder when in use to prevent it from accidentally swerving, which can cause electrocution. S Always use the proper-weight jackhammer for the job. For your back’s sake, try to use a lighter jackhammer as much as possible. S Always lift the tool jackhammer properly by using your legs. This method helps you avoid back strain or injury. S Use the proper jackhammer point for the material to be broken: rock point for rocks, spade point for asphalt, chisel point for concrete. S When moving the jackhammer from place to place during operation, place your hand between the handle and the operating lever. S Always operate the tool at a slight angle with it leaning back toward you. This way, you prevent the point from getting stuck in the material and the tool from getting out of control. S Shut off the air supply and relieve pressure from the supply hose before changing tool points. Do the same when leaving the jackhammer unattended. S Immediately remove defective or malfunctioning jackhammers and other
Let’s Talk Safety is available from AWWA; visit www.awwa.org or call 800.926.7337. Get 40 percent off the list price or 10 percent off the member price by using promo code SAFETY20. The code is good for the Let’s Talk Safety book, dual disc set, and book + CD set.
60 July 2022 • Florida Water Resources Journal
tools from the worksite until they are properly repaired. S Barricade the work area as much as possible to keep spectators and untrained personnel from getting exposed to the hazards of jackhammer operations. S Take breaks often. You should never use a jackhammer for long periods of time; your body needs a break from the constant vibrations and noises. S Unplug the jackhammer every time you walk away from it—even if it’s only for a few minutes. If someone accidentally turns it back on, there could be serious harm caused to people in the area.
For additional information about silica dust and other hand tool safety, see the OSHA booklet at www.osha.gov. Jackhammers can be very dangerous if you fail to utilize them properly. You
should always take precautions and other significant measurements to prevent injury. As jackhammers are heavy-duty tools, there should be no compromise in their use. S
Rules on Silica Dust The Occupational Safety and Health Administration (OSHA) has proposed rulemaking for respirable crystalline silica, inhalation of which puts workers at risk of silicosis, lung cancer, lung disease, and kidney disease. Exposure to silica dust can occur when cutting, sawing, grinding, drilling, and crushing stone, rock, concrete, brick, block, mortar, and industrial sand (including sand blasting).
FWRJ READER PROFILE treatment and conveyance, but grants and water transmission are also something I work on frequently. I serve a wide range of clients, from small towns to larger cities and counties, and even some industrial and private firms.
Felicity Appel, P.E.
Kimley-Horn, Tallahassee Work title and years of service. I am an engineer and project manager, with a total of seven years of experience in Florida and North Carolina. What does your job entail? My job varies from day to day. My duties include everything from design calculations of a digester or treatment basin, to grant applications and administration, to sizing pumps from 5 to 280 horsepower, to attending and presenting at public meetings. Most of my focus is on wastewater
What education and training have you had? I have my bachelor’s degree in chemical engineering from Florida State University and a master’s degree in civil–environmental from the University of Idaho, where I did my research on biological nutrient removal with a focus in biological phosphorous removal. I like to say my master’s degree is in wastewater treatment because that is pretty much all I did at the university. What do you like best about your job? The people. Whether it’s my coworkers, clients, or other industry professionals, I like to collaborate to work toward a common goal and to solve a problem. What professional organizations do you belong to? I am the Region I chair for FSAWWA and Bid Bend Chapter chair for FWEA.
We have board and sponsorship positions available if any readers are interested in getting involved! How have the organizations helped your career? The conferences that these organizations put on every year have helped me make so many great connections in the industry, as well as learning a lot during the technical sessions. What do you like best about the industry? I like being in an industry where the people are passionate about what they do. I have yet to meet someone in the wastewater field who thinks wastewater is “just okay.” What do you do when you’re not working? When I’m not working, I’m spending as much time as possible outside and next to water with my husband and two children. We also have a mini farm, with dogs, cats, chickens, ducks, a huge vegetable garden, fruit trees, and more flowers than you can count, which certainly keeps things busy. S
Florida Water Resources Journal • July 2022
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F W R J
Three Ion Exchange Technologies, One Tough Decision for Florida Utilities Tyler Smith, Chris Reinbold, Vinnie Hart, and Larry Elliott
O
ver the last decade, the ion exchange (IX) process has increasingly become a technology of interest for the removal of natural organic compounds in Florida source waters. Three IX options for municipal treatment plants include: S Fixed bed vessel, which is commonly used throughout Florida and the United States. S Fluidized bed, such as magnetic ion exchange (MIEX), which has seen limited use in Florida and the U.S. (about 12 installations). S Suspended ion exchange (SIX), which has four installations in Europe and is on the verge of its first U.S. installation in Tampa.
Considering Florida’s variability in source water composition and other site-specific considerations, one IX process does not fit all, and each type of IX should be evaluated, considering, among numerous other factors, a utility’s project goals, facility size, operation and maintenance (O&M) aspects, and costs. This article dives into the primary differences, similarities, and pros and cons for the three IX options so that Florida utilities can
consider the most optimal solution for their water quality challenges. Case studies from pilot- and full-scale installations across Florida, varying in size, capacity, and water quality characteristics, were considered. The MIEX is the only patented fluidized bed process (owned by IXOM Watercare Inc.) and uses a magnetized strong base anion exchange resin that is proprietary (the resin and process are both patented). The process was primarily developed to remove dissolved organic carbon (DOC) and the resin’s magnetic properties help facilitate settling (to avoid carryover to downstream processes). The MIEX resin has a mean particle size of 180 to 200 micrometers (µm). The small particle size and macroporous nature increases the available surface area, compared to traditional ion exchange resins. The MIEX process allows water and IX resin to flow through a contact tank with mixing, in which DOC and other negatively charged ions are exchanged for chloride ions. Figure 1 shows the general process flow of MIEX. Raw water flows upward from the bottom of the fluidized
Figure 1. Magnetic Ion Exchange General Process Flow Diagram (courtesy of IXOM Watercare Inc.)
62 July 2022 • Florida Water Resources Journal
Tyler Smith is senior project engineer with Carollo Engineers Inc. in Phoenix. Chris Reinbold is a project manager with Carollo Engineers Inc. in Palm Beach. Vinnie Hart is a project manager with Carollo Engineers Inc. in Denver. Larry Elliott was a vice president with Carollo Engineers Inc. in Orlando (deceased).
bed reactor/tank, where it’s contacted with resin. The resin ideally remains in suspension through the use of an agitator operating at low speeds. A series of tube settlers (or plates) at the top of the reactor vessel separate the resin from the water. Treated effluent overflows into collection launders to downstream treatment. The original treatment scheme had two stages (contact, followed by settling) with resin concentrations in the 10 to 15 milliliter (mL)/L range, while the newer “high rate” systems combine resin contact and settling in the same tank, with increased resin concentrations in the range of 200 to 250 mL/L. Virgin resin is added to the process to make up for quantities of resin that may be inadvertently carried downstream or lost to attrition. At any given time, a small portion of the resin is withdrawn from the reactor vessel, regenerated in semibatch configuration, and returned to the reactor for reuse. The MIEX has multiple full-scale and highrate installations in the U.S.; some of the larger installations include Palm Beach County Water Utilities Dept. (Water Treatment Plant 2; 16.4 mil gal per day [mgd]), Boynton Beach Utilities (20 mgd), and the C.B. Collier Water Treatment Plant in Gadsden, Ala. (24 mgd). Like the other IX technologies discussed, the resin itself has a high affinity for organics to facilitate their removal through ion exchange. In particular, the strong base anion exchange resin is effective at removing hydrophilics, humic substances, building blocks, and low-molecular-weight acids. For Palm Beach County, its full-scale MIEX process was able to reduce raw water total organic carbon (TOC) from 13 to 4 mg/L. A MIEX pilot study conducted for the City of Tampa showed reduction of TOC from 24 to 9 mg/L. Overall, the process has been proven for organics removal in Continued on page 64
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Continued from page 62 the range from 50 to 70 percent TOC removal for both surface water and groundwater applications. Due to the high loading rate configuration, the hydraulic retention time in the reactor is typically five minutes, and the resin remains in the contactor until it’s pumped to the regeneration system. Also, because of the high loading rate, the resin in the reactor is highly concentrated to achieve desired organics removal, with a typical concentration of 200 mL of resin per liter of water. Since only a portion of the resin is removed for regeneration at any given time, fresh (regenerated) resin makes up about 1 to 2.5 mL per liter of water in the reactor. This means the resin residence time can be up to a thousand times the hydraulic detention time. The frequency of resin regeneration is quantified by bed volume (BV), which equals the volume of water treated divided by the volume of resin regenerated. Lower BV indicates a higher regeneration frequency. The MIEX process operates between 200 and 1000 BV (depending on source water constituents), where lower BV typically results in higher organics removal (since the resin is being regenerated more frequently). The resulting salt use in the regeneration process is on the order of 300 to 800 lbs of salt required per mil gal (MG) of water treated. Lower BV treatment requires more salt, compared to higher BV treatment. Waste brine treatment options are offered by IXOM for salt recovery, thereby reducing overall salt consumption and waste brine volume disposal. Brine treatment options have unique challenges that require additional treatment steps and may or may not be viable, depending on the regeneration rate, salt use, and site-specific considerations. In addition to the significant organics reduction, there are many benefits to the MIEX process, as it’s minimally affected by suspended
solids, low concentrations of sand, or other colloidal particles; thus, it’s ideally suited as a pretreatment process for surface waters prior to conventional treatment. In this type of application, and as with suspended IX, the process provides great benefit as it serves as the primary treatment process responsible for removing organics, which can significantly reduce downstream chemical demand (i.e., coagulants or chlorine), sludge processing, and operating costs. Additionally, the magnetic resin is self-attracting, promoting the formation of large agglomerates that readily settle with hydraulic loading rates (up to 10 gal per minute (gpm)/sq ft). The proprietary MIEX resin currently offered is manufactured in Australia and shipped to U.S. water plants employing this technology. Although the resin has an affinity for organics removal, it also has an affinity to remove inorganic containments, like sulfate, nitrate, and phosphate. Other utilities, like St. Cloud Utilities and Toho Water (both in Florida), have experienced issues with sulfide/sulfate, as the resin has a tendency to foster sulfide oxidizing bacteria growth and irreversible fouling of the resin. The biological growth decreases the resin’s specific gravity and can cause resin loss out of the reactor. Additionally, any iron present in the raw water must be oxidized before the MIEX reactor, as iron oxidation within the process will likely foul the resin. Biological fouling has been observed in many full- and pilot-scale applications. A pilot study conducted in Tampa revealed the need to prechlorinate (up to 2 mg/L) the raw water supply prior to MIEX to discourage biological growth on the resin. Additionally, the long resin detention times, coupled with the level of organics loading onto the resin, likely causes the resin to become irreversibly fouled over time due to reduced desorption of organics during regeneration. In
Figure 2. Suspended Ion Exchange General Process Flow Diagram
64 July 2022 • Florida Water Resources Journal
full-scale applications, this is shown by reduced organics removal over time, with mediation occurring through increased virgin resin additions. Fouling of the resin can result in resin loss, resin attrition, and a change in density that, in turn, impairs its ability to remain in suspension and fluidized during steady-state conditions. Further, air entrainment and pumping of resin can result in resin attrition, ultimately leading to loss and increased operating costs for resin replacement. The suspended ion exchange (SIX) process is similar in some aspects to MIEX, but uses a nonproprietary resin in suspension. It flows in a plug flow regime, as opposed to a completely stirred tank reactor (CSTR) vessel. Virtually, any strong base, gelular, anionic exchange resin can be used in the process, given that it has the appropriate settling properties. These resins have similar affinity, selectively, as fixed bed IX and MIEX resins. Figure 2 shows the process flow diagram. The resin is dosed into the process water (either as a pretreatment or post-treatment option) in low doses (10 to 15 mL/L), which then flows to the contactor (ideally with plug flow configuration). After the contactor, the resin is continuously separated from the flow stream using lamella (plate) settlers. Treated water flows over the plate settlers and is sent to the next treatment process. The collected resin is conveyed to a regeneration tank, where it’s regenerated in a batch process with a salt brine solution and continuously returned to the resin storage tank for reuse. Resin is regenerated after each passage through the approximately 30-minute contactor, thereby eliminating the compounding of resin residence times (via multiple passes) in the reactor and promoting a uniform resin loading. The SIX treatment process originated from a utility, PWN Technologies in the Netherlands, but is nonproprietary and not patented. There have been many pilot- and bench-scale studies completed on a new SIX® process, including a 10-month pilot study just completed in Tampa. Organics removal through the SIX pilot was similar to fixed bed ion exchange and higher than MIEX, with up to 80 percent removal of TOC. There are currently few full-scale water treatment plants employing this technology in the world, and none currently in the U.S. The PWN Technologies owns and operates a 32-mgd surface water treatment plant in the Netherlands called Andijk III. This particular SIX installation, in operation since March 2014, is utilized to remove turbidity, organics, nitrate, and sulfate before the water is treated with ceramic membranes. In full-scale application, the plug flow regime necessary for the process is achieved through use of multiple and smaller completely mixed reactors (or basins) in series for even distribution of flow and contact time,
resulting in a maximum feasible train capacity of 10 mgd. Resin is kept in suspension through use of diffused air, as depicted in Figure 3. In the SIX process, contact time and BV treatment directly influence the size and number of contactors since the resin and water experience the same hydraulic retention time. The BV can range from 20 to 200, depending on the resin dose (5 to 50 mL/L); therefore, the resin is regenerated more frequently than MIEX resin, and 100 percent of the resin that is dosed is regenerated after each cycle in the contactor. Since the resin is not heavily loaded with organics, previous studies have indicated that contact times up to 30 minutes will achieve adequate organics removal. Additionally, short regeneration times are needed and are more effective since the resin is lightly loaded with organics. For SIX, the hydraulic detention time is equal to the resin detention time. The resin for SIX is subject to the same biological/algal, iron, and sulfide/sulfate foulants as other IX technologies; however, the shorter BV reduces the risk of long-term fouling via bacteria growth and resin blinding. Reduced risk of fouling and the type of resin used for SIX (less susceptible to shearing and abrasion) results in far less resin loss and attrition, compared to MIEX. This also allows for consistently stable adsorption kinetics and consistent high removal of organics long term. Along with organics, because of the frequent regeneration, the SIX process also reduces bicarbonate (alkalinity). A Tampa pilot study found a reduction of alkalinity varying from 35 to 65 percent, depending on the influent water quality. This could be troublesome for utilities with limited alkalinity in the raw water and could require the addition of alkalinity downstream to avoid adverse impacts on distribution system water quality. On the other hand, the reduction in alkalinity provides for a more efficient downstream coagulation process as coagulant and pH adjustment chemical demand is reduced. Although organic fouling is reduced in this process, any fouling requires treatment using caustic. Unlike the MIEX resin, the type of resin used for SIX is not chlorine-tolerant. This could require additional infrastructure and chemical use if a utility does not already use caustic. Because the process operates at lower BV, and resin detention time is the same as the process water hydraulic dentition time, a larger inventory of resin is needed in order to achieve the same organics removal performance, compared to other IX technologies. Theoretically, the SIX process requires more salt solution volume, but at a lower concentration to regenerate since the resin is lightly loaded. In some applications, this results in a lower salt use, compared to other IX technologies; however, the Tampa pilot study
Figure 3: Cross Sectional Representation of the Suspended Ion Exchange Contact Process
Figure 4. Fixed Bed Ion Exchange General Process Flow Diagram
found that the required salt use was three times the salt use, compared to MIEX. This is because the utility desired a finished water TOC target of 2 mg/L, so a conservative salt quantity was used to ensure full regeneration. Actual salt use would be dependent on the source water quality and finished water quality goals of the utility. Further, because of the required contact times and plug flow configuration, the SIX process requires a larger footprint, compared to MIEX. Fixed bed ion exchange is fundamentally different in its contact mechanism, compared to SIX and MIEX, and typically consists of pressure vessels, complete with an underdrain, gravel, and sand support system, and resin. The resin is fixed within the contact bed and is not fluidized during treatment, nor does it flow with the process water. A general process flow diagram is shown in Figure 4. Water is fed at the top of the vessel and flows through the resin for treatment. Treated water exits the bottom of the vessel and is conveyed downstream to the next unit treatment process.
Unlike MIEX and SIX, the underdrain contains the resin and requires no additional downstream treatment due to resin carryover. During regeneration, the process water is diverted, and the IX vessel is removed from service. The resin is regenerated in-place, after which the vessel is returned to service. The resin is often fluidized during regeneration, which helps ensure fullsurface-area contact with the salt brine and helps decompact the bed to minimize headloss when placed back into service. There are many fixed bed IX installations located across the U. S. and internationally, and widely available by competitive manufacturers, with installations in significant excess of MIEX and SIX. Since fixed bed IX occurs in a vertical pressure vessel, the capacity and footprint of each vessel is limited by transport size. Open-top and horizontal vessels have been considered, but not widely implemented. The largest vertical pressure vessels available can process up to about 1.5 to 2 mgd each, with loading rates between 8 and Continued on page 66
Florida Water Resources Journal • July 2022
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Continued from page 65 10 gpm/sq ft. Typically, these systems are used postfiltration as a polishing step for organics removal. The fixed bed IX process requires any strong base anion exchange nonproprietary resin. Like MIEX, competing anions, such as sulfate, can cause reduction in TOC removal if the resin is not regenerated frequently. Because the IX system is often post-treatment, and bicarbonate is an anion, removal of alkalinity can be a significant consideration, and pilot studies have shown sulfate breakthroughs at 600 BV. Fixed bed IX systems typically operate between 1000 and 2000 BV, so it’s regenerated even less frequently than MIEX. Unlike SIX, the resin that is typically used can tolerate a small amount of chlorine if fouling is occurring. In applications where water is exposed to chlorine and/or to the atmosphere before or within the IX process, oxidation/precipitation of iron and other species can occur and cause fouling of the IX resin. In addition, the presence of oxygen can promote biological growth on the IX resin and reactor (less so with SIX than compared to MIEX). The detrimental issues associated with oxygen are particularly of concern with anerobic groundwater, where the concentrations of highly soluble reduced metals (particularly iron) and aerobically biodegradable compounds are often high, and the associated scaling and biological fouling are also high. Fixed bed ion exchange technology is
another option for utilities with this type of source water. Due to the enclosed vessel, the fixed bed system does not expose the source water to oxygen, and as such, reduces the biological risk associated with changing the biological growth potential, offering substantial benefit for certain groundwater applications in Florida. Fixed bed IX may not be a feasible option for larger installations since the vessels are limited to 2 mgd. For example, a 50-mgd facility would require 25 to 30 IX vessels, which can become costly, require a large footprint, and require additional maintenance due to the increase in mechanical equipment and components. It can also be aesthetically unpleasing in high population areas. Additionally, since the resin is regenerated in situ, it’s required to be placed out of service (when in regeneration mode), thus requiring more redundancy than MIEX and SIX. Since the fixed bed IX arrangement is similar to a filter, any particulates must be removed prior to the IX vessel, which may require an additional upstream treatment process. Table 1 presents a comparison/summary of these three IX technologies. As shown, organics removal is similar to all of the options, but actual organics removal quantities will be site-specific. The fixed bed IX is the most limited in train size, making it impractical for large-scale installations, while the SIX process, ideally suited for larger installations, comes with the largest footprint. The MIEX only regenerates a small portion of the resin inventory at any given time, which results
Table 1. Ion Exchange Technology Comparison Table Resin Type Size Limitation per Train Footprint per Train Typical BV Treatment Regeneration Per Cycle Organics Removal TOC Loading Sulfate and Bicarbonate Competition Iron Competition Chance for Long-Term Fouling Brine Concentration Brine Waste Production Volume Demonstrated Performance Capital Operation and Maintenance Operator Interface
Fixed Bed IX MIEX SIX Nonproprietary Proprietary Nonproprietary Strong Base, Type I, Magnetic, Macroporous Strong Base, Gelular, Anionic Exchange Resin Resin Anionic Exchange Resin 1 - 2 mgd 10 mgd 10 mgd Smallest Medium Largest 1000 - 2000 200 – 1000 50 - 200 100%, based on WQ 1 – 10% 100% after single use 50 – 80% 50 – 70% 50 – 80% Medium High Light High Medium Low Low
Unknown
Medium
High (if oxidation of iron does not occur prior to MIEX system) High
10-12% Moderate
100% Moderate
2 – 6% High
High
Medium
Low
~$1.00 – 2.00 / gal Lowest
~$0.50 – 1.25 / gal Highest (due to resin replacement) High
~$0.75 / gal Moderate (due to salt use) Unknown
Low
66 July 2022 • Florida Water Resources Journal
Low
in its higher propensity for long-term fouling, compared to the other IX options. Capital costs for fixed bed IX are generally higher than MIEX and SIX, but lowest in O&M costs due to the lower salt use and less-frequent resin replacement. There is little available information on the O&M personnel requirements for SIX, and the demonstrated performance is limited to a few full-scale installations. Additionally, bicarbonate addition may be required with SIX, since the alkalinity is reduced due to the lightly loaded resin. The MIEX has the most resin attrition and loss, and is a proprietary product, thus resulting in the highest O&M cost. Overall, MIEX and SIX are viable options in surface water applications as a pretreatment step, where fixed bed IX, depending on the plant capacity, can be better suited as a polishing step. Fixed bed IX is most beneficial in smaller-scale groundwater application, whereas a SIX and MIEX implementation should consider prior oxidation of iron and minimization of sulfide-reducing bacteria. The SIX and MIEX are more viable in larger-scale installations (more than 30 mgd), while fixed bed IX is more appropriate for smaller water treatment plants. Fixed bed IX may be preferred for utilities that have minimal staff, while SIX and MIEX require more operational oversight. As such, the choice of the most appropriate IX technologies is not one size fits all; the pros and cons of all of them must be weighed, which may vary among different utilities.
Conclusion The primary differences and similarities among the three IX technologies are presented, and Florida utilities should consider these differences when selecting an anion exchange process for the removal of color and natural organic matter at their water treatment facilities. Any option could be extremely beneficial for existing utilities employing coagulation and wanting to reduce chemical demand and solids loading, looking for an organics removal system polishing step, or looking for a sidestream organics removal option. Utilities should compare the technologies for their process footprint requirements, organics removal, resin acquisition, resin characteristics, O&M requirements, brine quality and quantity, fouling potential, capital and operating costs, and demonstrated performance (and risks) in the waterworks industry. The selection of the most appropriate IX will vary according to a utility’s needs, plant capacity, raw water quality, available budget, and more; however, common to all considerations should be bench- or pilot-scale testing, prior to full-scale implementation of the selected option. S
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C FACTOR
Remembering William “Bill” Allman Patrick “Murf ” Murphy
President, FWPCOA
W
illiam “Bill” Allman passed away on May 28, 2022. There have been many heroes in our industry (and still are), but Bill Allman was a superstar among us. His involvement with FWPCOA made an impact on the environment of the state of Florida and advanced the profession of operators. This is just my piece—a very small piece—of a much larger story of an icon and legend who paved the way for some of us in the business now. Thank you, William “Bill” Edgar, for giving me permission to use this biography for Bill Allman from the CEU Plan website.
Biography of Bill Allman Career Beginnings In July 1955, William P. (Bill) Allman, began his wastewater career at the City of Kissimmee Sewage Treatment Plant. He received his Class C wastewater certification in 1956. After years of studying, working, and managing all areas of a wastewater treatment system, Bill received his Class A wastewater license in 1962. Bill maintains the sixth oldest wastewater operating license and the 11th oldest drinking water license in the state of Florida. From the early 1980s through the mid1990s, he was the plant manager of the Ironbridge Water Pollution Control Facility in Orlando, and was involved in the rapid growth of central Florida. He managed the utility personnel to handle the rapid growth of the Walt Disney World area. Bill has been recognized statewide—as well as nationally—for his leadership and management courses, his involvement in operator short schools and adult vocational training, and certification exams review. Bill has been a true leader in the wastewater field. FWPCOA Bill was a member of FWPCOA for over 60 years! His membership number is 29. He was one of the instructors at the first short school
that I attended. I was desperate to pass the Class C wastewater exam to get a 26 percent increase in pay to the $4.17 an hour that I was making as a trainee. His passion for instructing was palpable. It was obvious that his style of engagement and sharing information with grassroots operators was something he enjoyed, and was darn good at, and it made me want to learn more. I was hungry, and he fed me; he was one of the many great instructors that made an impact on my career and made me want to be involved in the association. When you have a career and you’re working hard, and even doing a great job, but you never branch out and network with other people to continually learn from them, you do a great disservice to yourself and others. Bill was always very involved with the association. He has been an officer and or committee chair or committee member for many groups in FWPCOA, as well as FWEA and FSAWWA. For FWPCOA he was secretary treasurer in 1968 and 1969, and president in 1971. Exam Review Committee In the late 1980s, the Department of Environmental Regulations, before it was changed to the Florida Department of Environmental Protection (FDEP), called for a kick-off meeting to create the State Exam Review Committee. There were at least 30 people there from around the state. Helen Setchfield was the Operator Certification Program (OCP) director at the time. I was a puppy in the room with big-dog legends in the business, which was very overwhelming! At the time, the licenses were given four times a year at certain locations, and one had to score 75 percent to pass the test. The intent was to meet pre- and post-test cycles (so eight times a year), review the tests before they went out, make changes to the tests for the betterment of the process, vet the questions by documenting where they came from in the manuals, create new test questions, and review operator challenges to questions on the test. As I remember, after about a year (maybe two), most of the folks that initially showed up had dropped off. For the wastewater exams, it
68 July 2022 • Florida Water Resources Journal
left Bill Allman, Jeff Dupont, and me, reviewing all four exams (D, C, B, and A). There were four gentlemen on the drinking water side, but I only remember the names of two: Joe Habraken and Grady Sorah. They seemed to be much smarter, and I used to make fun of them and say that the exams must be easy, because the water guys were usually done before lunch, while Bill, Jeff, and I would be there until 4 or 5 p.m. I knew I was wrong when I started taking the water exams 20 years later! Bill continued to be on the exam review committee until his passing. This was a treasured time for me, to get to spend those days with two brilliant and dedicated people in the wastewater industry. My admiration and respect for Bill grew immensely during that time period, and after I dropped off, I looked for him whenever I could, at events and meetings, to catch up with him. Florida Select Society of Sanitary Sludge Shovelers This is an FWEA award, which was founded in 1956 by David B. Lee to recognize industry professionals for their outstanding, meritorious service above and beyond the call of duty to the Florida wastewater industry. Bill was inducted in the Class of 1969. Traditionally, the intent of the annual award is to honor an engineer, an operator, and a “peddler” (vendor) if, in fact, three candidates are deemed to have met the award criteria. One may not join the FSSSSS, but rather is selected on the basis of personal merit, so the ones being inducted deserve this high honor through recognition of long and faithful service to the industry by their peers—something we should all be striving for! At some point, Bill was pH 7 (the chair for FSSSSS), and became the one to induct new shovelers into the society. His presentations were steeped in tradition; he’d put on a railroad engineer cap, blow a train whistle, and start what is called the “railroading of the new inductees” to honor those dedicated specialists in the industry. The process begins with a “roast,” which is some story (most likely considered compromising) about the inductee shared with the audience at a lunch at the Florida Water Resources Conference (FWRC). The candidates are then put through the tonguetwisting process of repeating the full name of the society—three times as fast as they can! It’s
an infinitely entertaining and highly memorable process, at least for the ones viewing it. Earle B. Phelps Award at Florida Water Resources Conference The City of Plant City won the FWEA Earle B. Phelps first-place award in 2012. The winning organization gets to keep the traveling trophy for a year, and I couldn’t wait to carry it through the exhibit hall at FWRC to show it off. I immediately started looking for what I called the “Three Bill’s Booth.” William "Bill” Edgar, William “Bill” Allman, and William “Bill” Johnson could frequently be found at the CEU Plan booth, or at a table alongside the exhibit hall, reminiscing about the past, talking about the future, and sharing stories of wastewater glory that I could listen to all day. Awards His awards are many, including the L.H. Scott Award, William D. Hatfield Award, David B. Lee Award, and honorary life member of FWPCOA. His wife, Barbara; was even given an FWPCOA award in 2006 for her services at the state short schools. They were a lovely couple, and she supported Bill immensely. They seemed to always be together, even at regional short schools and events. Please keep her and Bill’s family in your prayers. In Closing Rim Bishop, another true legend in the industry, shared this about Bill: “No member has served FWPCOA better or longer than Bill Allman, and none with a dignity and grace that even comes close. He was there for us when no one else could help, never letting Florida's operators down—not once, not for a second. He was a man who lived his faith,
inspiring others in ways that words could never accomplish. There is no replacement for Bill Allman; all we have is his example, and thank God for that.” I am heartbroken and speechless at Bill’s passing, but will say here that there are a lot of amazing people in our industry—do whatever you can to get to know and learn from them. Become a member of FWPCOA, get yourself out there, and be active. That could be all it takes to put you on the path of making a difference in our industry. Laurence Hutton, an American essayist, described a meeting between himself and William Makepeace Thackeray, a British novelist, author, and illustrator. In a memoir by Hutton, Thackeray said, “Whatever you are, try to be a good one.” William “Bill” P. Allman was a good one! Thanks again to Bill Edgar for sharing some photos for me to include here.
Bill Allman and Robert McColgan receiving 60-year-plus membership awards from FWPCOA.
From left to right: Bill Allman, Ed James, and Bill Edgar at Ed’s retirement party from the Florida Department of Environmental Protection, showing off their shovels.
FWPCOA 2022 Fall State Short School The FWPCOA 2022 Fall State Short School will be held Aug. 1-5, 2022, at the Indian River State College in Fort Pierce. Remember, this is when the bulk of the FWPCOA awards are presented, so look at the website, and see which award would be perfect for an individual at your facility. For event details go to www.fwpcoa.org and view the calendar. For all events contact Shirley Reaves at (321) 383-9690 or fwpcoa@ gmail.com, or Darin Bishop at (561) 8400340 or memfwpcoa@gmail.com.
Remember—let’s keep that water clean! S
Barbara and Bill’s 51st wedding anniversary.
At the 2019 Florida Water Resources Conference, after Patrick Murphy’s induction into FSSSSS (Class of 2019). Left to right are Patrick Murphy, Bill Allman (Class of 1969), William “Bill” Edgar (Class of 2003), and Jamie Hope (Class of 2012).
Florida Water Resources Journal • July 2022
69
FWEA C H A P TE R CO R N E R Welcome to the FWEA Chapter Corner! The Member Relations Committee of the Florida Water EnvironmentvAssociation hosts this article to celebrate the success of recent association chapter activities and inform members of upcoming events. To have information included for your chapter, send details to Melody Gonzalez at gonzalezm@bv.com.
Melody Gonzalez
South Chapter Meeting: Miami-Dade Water and Sewer Department Builds for the Future Chapter holds successful first in-person event of the year
O
Layla Llewelyn (right), the outgoing chapter chair, presents plaques to the speakers.
n March 31, 2022, the FWEA South Chapter had the pleasure of hosting its first in-person event of the year at the 94th Aero Squadron Miami. With a full house, our chapter members enjoyed a presentation from Roy Coley, director, and Marisela Aranguiz, deputy director, of the Miami-Dade Water and Sewer Department (WASD), about its capital improvement program and the strategy for “Building for Our Future.” The evening started with a social networking hour where our members could finally meet and mingle again after a lengthy absence due to COVID-19. It was an exchange of camaraderie that was long overdue. Just before dinner, Layla Llewelyn, the outgoing South Chapter chair, took the
Attendees during the networking hour.
70 July 2022 • Florida Water Resources Journal
opportunity to introduce the incoming 2022-2023 Steering Committee and Arturo Burbano, the new chapter chair. Layla introduced the WASD speakers prior to their presentations. Mr. Coley started by explaining his vision for the department after being in his role for nearly a year. He seeks to actively collaborate with the water community to implement the improvements necessary to provide our community with the best quality of service in the most efficient way. It was clear that he has taken the time to understand the needs of employees, consultants, contractors, stakeholders, and partners to develop a comprehensive and inclusive strategy to support WASD project execution during the coming years.
Roy Coley, director of Miami-Dade Water and Sewer Department, presents his vision for the department’s future at the chapter meeting.
Marisela Aranguiz (at the podium in the rear) makes her presentation during the dinner portion of the event.
Next, Ms. Aranguiz covered some of the challenges the department has faced, valuable lessons learned, and achievements and successes over the past few years. She explained that WASD has a critical goal of improving the management of internal and external processes to minimize delays, increase efficiencies, and bring projects
FWEA members at the event.
promptly to completion, wherever the community needs them. After addressing important questions from the audience, each presenter received a recognition plaque for their contribution to FWEA’s mission of promoting a clean and sustainable water environment for our community.
The event was a great success and a celebration of our water and wastewater community coming together again, and we’re looking forward to a very productive year. Melody Gonzalez, E.I., is the FWEA Member Relationships Committee chair and treasurer/ contact for the FWEA South Florida Chapter. S
Florida Water Resources Journal • July 2022
71
FSAWWA SPEAKING OUT
Keeping Florida’s Infrastructure Resilience on the Radar Emilie Moore, P.E., PMP, ENV SP Chair, FSAWWA
D
iscussions of resilience are everywhere and Florida is making great strides in providing funding to address flooding and sea level rise resilience. In addition to improving Florida’s resilience to rising waters, resilience funding will improve the condition of Florida’s infrastructure in areas such as, but not limited to, coastal systems, drinking water,
Table 1. Resilient Florida Grant Program Awards for Fiscal Year 2021-22, Sample Projects (source:FDEP)
Project Sponsor
County
City of Gainesville
Alachua
Project Title
Wastewater Lift Station Force Main Resiliency Sanitary Sewer Overflow (SSO) Reduction Broward County Broward Hardening Parks Seawalls of and Recreation Intracoastal at Hollywood North Beach City of Hollywood Broward Tidal Flooding Mitigation and Shoreline Protection City of Jacksonville Duval Stormwater Pump Station Miami-Dade County Miami Water Reset Dade Increasing the Resiliency of Drinking Water Infrastructure Miami-Dade County Miami Schenley Park Dade Septic-to-Sewer Conversion Village of Islamorada Monroe Islamorada Transmission Main Adaptation Palm Beach County Palm Australian Avenue Beach Drainage Improvements Pinellas County Pinellas Mobile Home Park Utilities Wastewater
72 July 2022 • Florida Water Resources Journal
Approximate Total Project Cost (dollars) $11,865,000
Expected RFGP Funding Total (dollars) $4,746,000
$18,000,000
$18,000,000
$28,000,000
$14,112,000
$40,000,000
$20,000,000
$20,250,000
15,187,500
$55,000,000
$27,500,000
$35,000,000
$17,500,000
$31,063,067
$13,357,119
$25,000,000
$25,000,000
energy, roads, schools, stormwater, transit, and wastewater.
Florida’s Infrastructure Report Card In the 2021 American Society of Civil Engineers (ASCE) Report Card for America’s Infrastructure, Florida’s grade for 14 infrastructure categories was listed overall as a “C”, which is defined as “mediocre” (ASCE, 2021). The breakdown in the 14 categories is: S Aviation (C+) S Bridges (B) S Coastal areas (C-) S Dams (D-) S Drinking water (C) S Energy (C+) S Levees (D+) S Ports (B) S Roads (C+) S Schools (D+) S Solid waste (B+) S Stormwater (C-) S Transit (C) S Wastewater (C) Overall, America’s infrastructure received a grade of “C-“ in 2021.
Florida’s Flooding and Sea Level Rise Resilience Since 2019, Florida has committed more than $1 billion for flooding and sea level rise resilience programs. Last year’s Senate Bill 1954 (Statewide Flooding and Sea Level Rise Resilience) was signed into law on May 12, 2021, and targets a coordinated approach to Florida’s coastal and inland resiliency known as the Resilient Florida Program (Florida Department of Environmental Protection [FDEP], 2022). The program includes these components: S R esilient Florida Grants S S tatewide Assessment S S ea Level Impact Projection (SLIP) Study and Living Shorelines The Resilient Florida Grant Program (RFGP) awards for Fiscal Year (FY) 2021-22 Continued on page 74
High tide flooding along Sunrise Drive South in St. Petersburg, 2015. (photo: Emilie Moore)
Table 2. 2022-23 Statewide Flooding and Sea Level Rise Resilience Plan, Sample Projects (source:FDEP)
Project Sponsor
County Project Title
Approximate Total Project Cost (dollars)
Gulf County
Gulf
$28,462,469
Estimated Requested Funding Total (dollars) $27,893,220
$38,000,000
$19,000,000
$67,034,197
$20,110,259
$30,000,000
$15,000,000
$31,376,186
$15,688,093
$39,600,000
$19,800,000
$40,000,000
$20,000,000
$17,000,000
$8,500,000
Advanced Wastewater Treatment Facility St. Johns River Water Indian Sebastian River Improvement District (SRID) Management District River Treatment and Storage City of Miami Beach Miami First Street Flood Mitigation Dade and Sea Level Rise Adaptation Miami-Dade County Miami Public Housing Resiliency Dade Upgrades in the Little River Adaptation Action Area City of Miami Miami Design and Construction of Dade Allapattah Flood Improvements (AFI) NW 7 Ave. to 14 Ave., NW 23 St. to 31 St. City of Delray Beach Palm Tropic Isle Roadway and Beach Underground Utility Improvements St. Johns River Water Putnam C-10 Water Management Area (WMA) Management District St. Johns River Water Putnam Bayard Point Land Acquisition Management District
74 July 2022 • Florida Water Resources Journal
Continued from page 72 included more that $404 million for 113 projects in 25 Florida counties. A sample of large 2021-22 RFGP awards is listed in Table 1. These projects vary in duration from one to five years. The FDEP completed the 2022-23 Statewide Flooding and Sea Level Rise Resilience Plan as required by the 2021 resilience law. The 2022-23 plan lists 76 infrastructure projects totaling over $270 million in estimated requested funding over a three-year period. The types of resiliency projects include: S W ater and wastewater facilities S S tormwater collection and pumping S F lood mitigation S L iving shorelines S P ump stations S L ibraries S E quipment (generators and valves) S S eawalls S M angrove restoration S L and restoration S R oadways S B uildings S P ublic housing S L and restoration A sample of large 2022-23 projects is listed in Table 2. In addition to improving Florida’s flooding and sea level rise resilience, these projects should help improve Florida’s ASCE Infrastructure Report Card ratings.
Funding for the Path Forward As we navigate the financial roadmaps to bring projects to reality, Florida’s grants programs are available, including: S W astewater Grants S I nnovative Technologies Grants S B iscayne Bay, Springs Coast, and Water Quality Improvement Grants S F Y 2022-23 Resilient Florida – Planning Grants The portal for grant submittals is located at Grants|Water Quality Dashboard (protectingfloridatogether.gov). It’s an exciting time in Florida for building our state’s resilience and making sizeable improvements to our aging infrastructure. S
FWPCOA TRAINING CALENDAR SCHEDULE YOUR CLASS TODAY! Please go to the FWPCOA website
www.fwpcoa.org
for the latest updates on classes July
Member / Non Member
11-13..... Backflow Repair Course.............................................................. St. Petersburg.... $275/305 13..... Backflow Tester Recertification................................................. St. Petersburg.... $85/115 18-21..... Wastewater Collections B........................................................... Deltona.............. $325 25-29..... Reclaimed Water Field Inspector............................................... Winter Garden.... $350/380 29..... Backflow Tester Recertification................................................. Deltona.............. $85/115
August
1-5..... FALL STATE SHORT SCHOOL..................................................... Ft. Pierce 15-18..... Backflow Tester Course.............................................................. Deltona.............. $375/405 18..... Backflow Tester Recertification and Exams............................. Deltona.............. $85/115 22-25..... Backflow Tester Course.............................................................. St. Petersburg.... $375/405 25..... Backflow Tester Recertification................................................. St. Petersburg.... $85/115 29-1..... Region IX Wastewater Collections C Course........................... Deltona.............. $325/325
September
12-14..... Backflow Repair Course.............................................................. St. Petersburg.... $275/305 12-15..... Backflow Tester Course.............................................................. Deltona.............. $375/405 14..... Backflow Tester Recertification................................................. St. Petersburg.... $85/115 16..... Backflow Tester Recertification and Exams............................. Deltona.............. $85/115 22..... Region IX Reclaimed Water Distribution C Course (Abbreviated).... Deltona.............. $125/155 23..... Region IX Reclaimed Water Distribution B Course (Abbreviated).... Deltona.............. $125/155 Course registration forms are available at http://www.fwpcoa.org/forms.asp. For additional information on these courses or other training programs offered by the FWPCOA, please contact the FW&PCOA Training Office at (321) 383-9690 or training@fwpcoa.org.
You are required to have your own calculator at state short schools and most other courses. Florida Water Resources Journal • July 2022
75
What is The Operators’ Initiative and Why is it Important? Steve Soltau Every industry understands that preparing, training, and maintaining a labor force is essential to its success and growth. Now, more than
ever, utilities are struggling to fill treatment plant workforce vacancies and are looking to local high school academies to fuel the drive to train their next generation of workers. Three years after the first academy began teaching coursework certified by the state of Florida, the Florida Section American Water
Works Association (FSAWWA) recognized this need, and in 2016, established the Operators’ Initiative.
Initiative Goals The goals of the Operator’s Initiative are to: S U nderstand and communicate the need for water utility professionals S S upport the development of new operators S D evelop awareness of opportunities within the water and wastewater industry The FSAWWA partners with Florida high school academies to provide their students with coursework approved by the Florida Department of Environmental Protection (FDEP) for drinking water and wastewater operator Class C and/or Class D licensing. The students are then eligible to take the operator’s licensure exam at graduation.
Academy Structures The structures of the academies are as diverse as the students who attend them. S L ake Brantley High School (Altamonte Springs) - 12th grade students spend their senior year working side by side with licensed operators at the facility to complete the coursework and gain valuable, hands-on experience. S S t. John’s Technical High School (St. Continued on page 78
Students at the 2021 FSAWWA Fall Conference.
Staying current with technology.
Paid summer internships are available.
Table 1. Exam Passing Rates
FSAWWA High School Career Academies – FDEP Class C License Exams 2013-2021 Exam Type Drinking Water Wastewater
Total Exams Taken Prior to Graduation 139 55
Passed
1st Retake Exams
46 13
5 4
Passed
2nd Retake Exams
Passed
1 3
2 0
0 -
3rd Retake Exams Passed 1 0
1 -
Licenses Issued Post Graduation 7 4
Note that although there are currently four academies, they did not all start in 2013. 194 exams adminstered with ~31 percent pass rate (48 percent statewide). 11 Class C FDEP licesnses issued.
76 July 2022 • Florida Water Resources Journal
FSAWWA Water Use Efficiency Division
2022 Water Conservation Awards for Excellence This annual awards program of the FSAWWA Water Use Efficiency Division (WUED) recognizes innovative and outstanding achievements in water efficiency throughout Florida.
Award Categories:
• Comprehensive Water Conservation Programming • Program Element- Single Program Highlight Agencies will be awarded one of the following awards: Best in Class or Show of Excellence.
For online application and information, visit : fsawwa.org/2022wcawards Entries must be submitted by: Monday, October 17, 2022
.
For additional information, please contact: Keeli Carlton Water Use Efficiency Division (WUED) Chair kcarlton@mywinterhaven.com
Aging Well- Protecting Our Infrastructure
Looking forward to seeing you at the Hyatt Regency Grand Cypress on November 27 to November 30, 2022.
Thank you for your interest in the FSAWWA.
Continued from page 76 Augustine) - Students’ multi-year coursework focuses on coastal, environmental, and water resources studies. S H eritage High School (Palm Bay) - Beginning in 10th grade, students focus on an environmental technology track. Those who pass the courses and the operator exam can earn 12 hours of college credit to Florida Gateway College. S Seminole High School (Seminole) - The academy will be incorporating ArcGIS and Drone technology into its curriculum for water quality research. The high school is partnering with Evans High School in Orlando, thanks in part to an $18,000 grant from AWWA Water Equation.
S A fifth academy, in Orlando, is expected to begin in September 2022.
Academy Goal The goal of the academies is to provide graduates the knowledge and skills to be workforce-ready. Given the high number of vacancies at local utilities, it was expected that trained and certified applicants would be quickly hired. A review of FSAWWA records indicates that six academy graduates are employed in the line of work in which they were trained. A total of 64 students passed the Class C exam since 2013 and the Operators’ Initiative anticipated that more of the students would have entered the workforce.
Hands-on water quality analysis.
In an effort to increase the number of academy graduates hired by utility organizations, the Operators’ Initiative is assessing how to increase the number of graduates who pass the FDEP examinations and determine the best way to add new schools, while continuing to assist the academies with providing the graduates the knowledge and skills necessary to be interviewed and hired by a local utility.
Understanding Statistics to Increase Academy Success The Operators’ Initiative has assessed the data associated with exam pass rates for academy graduates from 2013 to 2021. The data indicate that academy graduates have about a 31 percent pass rate, which is 17 percentage points lower than the FDEP’s average rate. The results are summarized in Table 1. The Operators’ Initiative has worked with dozens of stakeholders within both industries (utilities and education) over the last 10 years. Through surveys and discussions, these professionals have identified the relationships most valuable to a student’s success: local employer involvement, school counselors, classroom and teacher support, utility mentors, and professional associations. In addition, the Operators’ Initiative asked the academy teachers the following questions to help understand and improve the high-school-toutility employment metrics. Why is it difficult to raise the pass rate? S T eachers are not licensed operators and many have not been to a treatment plant. S The curriculum is difficult to teach and teacher turnover can be challenging. S C lassroom time does not provide sufficient hands-on learning to understand how to apply the curriculum. S S ome students struggle with the rigors of the coursework and lose interest. S A dditional tutoring by experienced operators is lacking.
Academies focus on workforce development and training.
Field trips and networking.
78 July 2022 • Florida Water Resources Journal
For those who pass: Are they getting interviews? Why are they not getting hired? S G raduates are young, typically 17 to 19 years old, and struggle with resumés, interviews, transportation, and general life know-how. S E mployers not directly involved in the academy do not always know about the opportunities recent graduates provide. S Th ere are a limited number of treatment plants in the local area and many graduates are not able to relocate out of town. S A s the excitement of internships fade and the students focus on coursework, some lose interest and do not apply for interviews. Continued on page 80
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Continued from page 78 How can we draw in additional schools? S Employers promote academies with their local school boards and vocational/technical schools. S E stablish sponsorship for a local academy that includes tutoring, training, and internships. S A ssist with locating teachers who have experience or are licensed in water and wastewater operations. S C ommunicate, communicate, communicate; the curriculum is readily available and FSAWWA provides annual monetary support. Any specific recommendations for improvements? S C reate an academy-only website link with training videos and mentoring opportunities. S S ponsor a teacher to shadow utility operations staff over the summer. S H ire retired licensed operators to teach at the local high school. S D ramatically increase the number of Operators’ Initiative volunteers. S F SAWWA Water Utility Council volunteers can get involved in supporting the academies.
S Provide AWWA training videos to approved academy instructors free of charge. S Look outside the treatment plant for vacancies to be filled by graduates, such as backflow, maintenance, and customer service. S Have a “Signing Day,” like the National Football League, where students can apply for positions and talk to utility personnel. S Explore other metrics or intangibles: • Did graduates go into the sciences or engineering? • Maybe they went to work in a laboratory or in the field. • Maybe some went on to a university and stayed with water quality.
The Future: Providing Jobs to the Local Economy and Giving Back to the Community The following are suggestions from the Operators’ Initiative for how it can help move academy graduates toward employment with utilities. S Budget for short-term, 40-hour summer internships at around $15 an hour.
S P rovide new-employee apprenticeships and training programs. S O bligate to fill entry-level positions on an annual basis. S P artner with human resources, unions, and risk management departments to set up opportunities associated with local academies and graduates. S S chedule time for employees to organize tours. S P repare lesson plans for teachers. S I ntegrate unique training programs with the needs of the local academies. S V olunteer to tutor a student virtually, mentor a teacher, or be a guest speaker. S B e a leader in the community. The options are endless!
Resources For additional information about the academies and volunteering, visit these links: S F lorida Section American Water Works Association (fsawwa.org) S h ttps://www.awwa.org/AWWA-Articles/ florida-section-program-preps-highschoolers-for-water-treatment-jobs1
Scavenger hunt at FSAWWA Fall Conference.
Each school was awarded a banner from FSAWWA to display.
Local utility involvement.
80 July 2022 • Florida Water Resources Journal
Mentoring and tutoring
S P inellas County high school students soar the skies to analyze water quality. https://youtu. be/q4i4DmBBuWE S T raining Videos - American Water Works Association (awwa.org)
Sources • S teve Seibert, Florida Humanities, Executive Director. • Sic Conditions for Successful Career Academies. https://kappanonline.org/successful-careeracademies-career-preparation-lanfordmaruco/. • Career Academies UK. https://www. careeracademies.org.uk/pages/employers.html. • How Do the Career Academies in Yadkin Valley Engage Partners. https://libraryofcareer. com/faq/how-do-the-career-academies-inyadkin-valley-engage-partners/. Steve Soltau is owner/operator of H2OKnowledgePro providing workforce development and process control troubleshooting. He is a 26-year member of FSAWWA, happily serving in many S roles as a volunteer.
NEWS BEAT Woodard & Curran has hired Laura Kennedy as its new business development leader for the private sector. With nearly 22 years in environmental Laura Kennedy consulting, she brings to this new role a breadth of experience in people leadership, client service, operations and finance, and corporate governance. She has served in a variety of roles, from project scientist to project manager, client service manager, technical expert, group manager, practice leader, chief operating officer, and board chair, with a proven track record for improving profitability and operational efficiency, while delivering exceptional client service and employee engagement and development. “What I have enjoyed most in my career is partnering with clients to
understand their needs and tailoring solutions based on their expertise,” said Kennedy. “I am excited about the depth of expertise Woodard & Curran can bring to our clients and what that means for strategies we can develop in partnership with them.” Kennedy holds a bachelor’s degree in chemistry from Dartmouth, a master’s degree in toxicology from Massachusetts Institute of Technology, and completed the Kellogg Executive Education Corporate Governance program. Her most recent role focused on clients in the food and beverage industry and transportation sector. Prior to that, she served as a chief operating officer for an industrial business, responsible for project delivery, resource management, business development, client service, technology and innovation, and quality. In a span of three years, she increased the profitability of that business from 6 to 18 percent. Continued on page 82
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NEWS BEAT Continued from page 81 Said Alyson Watson, Woodard & Curran chief executive officer, “In addition to her technical and operational expertise, Laura’s grasp of the environmental challenges facing the private sector is unmatched. She brings a unique ability to establish successful and creative partnerships with key industrial accounts that will benefit from our integrated services, from concept to operations.”
R
Santa Rosa County has been awarded $499,000 through the U.S. EPA Gulf of Mexico Division. The funding will be used to construct green stormwater infrastructure at the county’s administrative complex, which will be used to demonstrate practices aimed
to address and improve impaired waters within the Pensacola Bay Watershed. This project seeks to demonstrate the effective design, implementation, and maintenance of green infrastructure, including vegetated bioswales, tree boxes, and permeable surface at the county’s administrative complex in Milton. Currently, the 8.6-acre site has 90 percent impervious surfaces, per the grant application. The project will add 20 tree boxes and bioswales within existing medians and replace asphalt with around 24,000 square feet of permeable pavement. Additionally, the project will provide 6,000 square feet of rain gardens in a courtyard area and at an existing retention pond. This effort is in partnership with the University of Florida’s Milton Watershed
82 July 2022 • Florida Water Resources Journal
Lab, and the University of Florida, Institute of Food and Agricultural Sciences (UF/IFAS) will provide an outreach and education component, with a goal to educate visitors, employees, the building industry, and community leaders about the benefits of green infrastructure practices. The county’s environmental staff and UF/IFAS extension agents will lead tours for the local community and businesses to learn more about green infrastructure potential. Additionally incentives of free plant vouchers for homeowners will be provided. “It’s anticipated that as community members observe the changes to the grounds they will gain knowledge about the project, request additional information, and work to incorporate green infrastructure in future county development projects and on homeowner properties,” said Naisy Dolar, county grants manager. The UF/IFAS will also monitor and collect data on the ability of these projects to reduce pollutant loads entering the Blackwater River. The project will last three years, from Sept. 1, 2022, to Aug. 31, 2025. S
CLASSIFIEDS CLASSIFIED ADVERTISING RATES - Classified ads are $20 per line for a 60 character line (including spaces and punctuation), $60 minimum. The price includes publication in both the magazine and our Web site. Short positions wanted ads are run one time for no charge and are subject to editing. ads@fwrj.com
POSITIONS AVAILABLE CITY OF WINTER GARDEN – POSITIONS AVAILABLE The City of Winter Garden is currently accepting applications for the following positions: EXPERIENCED & TRAINEES/LABORERS - Collection Field Tech – I, II, & III - Distribution Field Tech – I, II, & III - Public Service Worker II – Stormwater - Superintendent – Collections, Wastewater, & Stormwater - Wastewater Plant Operator – Class C Please visit our website at www.cwgdn.com for complete job descriptions and to apply. Applications may be submitted online, in person or faxed to 407-877-2795.
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Coral Springs Improvement District has multiple positions available Drinking Water Plant Operator Applicants must have a valid Class C water treatment license or greater and experience in Reverse Osmosis/Nano Filtration treatment processes preferred however not required. Position requirements include knowledge of methods, tools, and materials used in the controlling, servicing, and minor repairs of all related R.O. water treatment facilities machinery and equipment. Must have a valid Florida driver’s license, satisfactory background check and pass a pre-employment drug screening test. Salary range for this position is $47,800 - $74,880. Salary to commensurate relative to years of experience and license held in this position. Wastewater Plant A Operator Applicants must have a valid Class C Wastewater Treatment license or greater. Operates sewage treatment, sludge processing, and disposal equipment in a wastewater (sewage) treatment plant to control flow and processing of sewage. This employee is responsible for keeping within permit discharge limits and routinely monitors the flow of wastewater and chemical levels. Salary range for this position if $47,800 - $74,880. Salary to commensurate relative to years of experience in this position. Excellent compensation including defined benefit and matching 457 pension plan. Applications may be obtained by visiting our website at www.csidfl.org/resources/employment.html and fax resume to 954-753-6328, attention Jan Zilmer, Director of Human Resources.
City of Titusville - Multiple Positions Available
Water Reclamation Superintendent, Electronics Technician, Utility Asset Program Manager, Industrial Electrician, Plant Operator Trainee, Field Technician, Maintenance Mechanic. Apply at www.titusville.com
Utilities Director DeSoto BOCC is seeking qualified applicants for: Utilities Director. Salary Negotiated. Complex supervisory, administrative, and professional work in planning, organizing, and directing environmental, water, sewer, and other utility projects and programs. Accredited 4 year college or university degree in Civil Engineering, Public Administration, or a closely related field. Six years professional civil engineering exp. including 2 years utilities. Certified in water and waste water treatment Class “B” operation or the ability to obtain within 6 months. (EEO and Drug-Free Work Place) Visit www.desotobocc.com for more info.
84 July 2022 • Florida Water Resources Journal
Water Treatment Plant Operators
The Water Treatment Plant at Village of Wellington is currently accepting applications for a full-time Water Operator. Apply online. Job postings and application are available on our website: https://wellingtonfl.munisselfservice. com/employees/EmploymentOpportunities/JobDetail. aspx?req=20&sreq=5&form=WTO3&desc=OPERATOR III, WATER TREATMENT PLANT We are located in Palm Beach County, Florida. The Village of Wellington offers great benefits. For further information, call Human Resources at (561) 753-2585.
The Department of Environmental & Engineering Services (DEES) is currently accepting job applications at: https://www.margatefl.com/207/Job-Opportunities
UTILITY DESIGN ENGINEER Assists in directing the operations of Water and Sewer Department as it relates to engineering and regulatory work; and performs related duties as assigned. Requires a Bachelor’s degree in Civil Engineering or closely related field and 4 years related experience. Possession of an active Engineer In Training (EIT) certification is required. APPLY: Online at www.covb.org and review complete job description. City of Vero Beach, FL 772 978-4900 EOE/DFWP
LOOKING FOR A JOB? The FWPCOA Job Placement Committee Can Help! Contact Joan E. Stokes at 407-293-9465 or fax 407-293-9943 for more information.
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Editorial Calendar
January.............. Wastewater Treatment February............ Water Supply; Alternative Sources March................. Energy Efficiency; Environmental Stewardship April................... Conservation and Reuse May .................... Operations and Utilities Management June................... Biosolids Management and Bioenergy Production July ..................... Stormwater Management; Emerging Technologies; Florida Water Resources Conference Review August............... Disinfection; Water Quality September......... Emerging Issues; Water Resources Management October.............. New Facilities, Expansions, and Upgrades November.......... Water Treatment December.......... Distribution and Collection Technical articles are usually scheduled several months in advance and are due 60 days before the issue month (for example, January 1 for the March issue). The closing date for display ad and directory card reservations, notices, announcements, upcoming events, and everything else including classified ads, is 30 days before the issue month (for example, September 1 for the October issue). For further information on submittal requirements, guidelines for writers, advertising rates and conditions, and ad dimensions, as well as the most recent notices, announcements, and classified advertisements, go to www.fwrj.com or call 352-241-6006.
Display Advertiser Index American ���������������������������������������������������������������������������������� 83 Blue Planet Environmental Systems ������������������������������������� 87 Carollo �������������������������������������������������������������������������������������� 63 CEU Challenge ��������������������������������������������������������������������������� 8 Data Flow Systems ������������������������������������������������������������������ 81 FJ Nugent ��������������������������������������������������������������������������������� 55 Florida Aquastore �������������������������������������������������������������������� 82 FSAWWA Fall Conference ��������������������������������������������������56-59 FSAWWA Water Conservation Awards for Excellence �������� 77 FWPCOA Training Calendar ��������������������������������������������������� 75 Gerber Pumps ���������������������������������������������������������������������������� 9 Hartzell Air Movement ������������������������������������������������������������� 85 Heyward �������������������������������������������������������������������������������������� 2 Hudson Pump & Equipment ��������������������������������������������������� 53 Hydro International �������������������������������������������������������������������� 5 Lakeside Equipment Corporation �������������������������������������������� 7 Mead & Hunt ����������������������������������������������������������������������������� 51 Pollardwater ����������������������������������������������������������������������������� 67 PolyProcessing ������������������������������������������������������������������������ 71 UF TREEO Center �������������������������������������������������������������������� 79 US Submergent ������������������������������������������������������������������������ 45 Wascon ������������������������������������������������������������������������������������� 73 Xylem ���������������������������������������������������������������������������������������� 88
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1. C ) Questions that are open-ended, dealing with the candidate’s work experience. Per “Manage for Success,” Chapter 1. Supervising, Section 1.302 Interviewing, “Attempt to structure the interview so that the candidate is speaking more than half the time. Ask open-ended questions that deal with the candidate’s experience, rather than questions that can be answered with a ‘yes,’ ‘no,’ or other one-word response.”
2. D) What languages do you read, write, or speak fluently?
Per “Manage for Success,” Section 1.302 Interviewing, Table: Acceptable and Unacceptable Pre-Employment Inquiries, • “Subject – National Origin or Ancestry • Acceptable Pre-Employment Inquiries – Language applicant reads, speaks, or writes fluently • Unacceptable Pre-Employment Inquiries – Applicant’s nationality, lineage, ancestry, national origin, descent, or parentage. – Date of arrival in the United States or port of entry, how long a resident. Nationality of applicant’s parents or spouse; maiden name of applicant’s wife or mother. – Language commonly used by applicant. “What is your mother tongue?” How applicant acquired ability to read, write, or speak a foreign language.”
3. D) Management by Walking Around Per “Manage for Success,” Chapter 3. Human Relations, Section 3.11 Management Style, “Management by Walking Around. The manager maintains a nonthreatening, regular presence in employee work areas, personally communicating with the employees on work items of mutual interest and or concern.”
4. C) QualServe
Per “Manage for Success,” Chapter 4. Planning and Organizing, Section 4.8 Management Assessment Program, “QualServe is a voluntary American Water Works Association (AWWA) benchmarking program that helps utilities achieve total quality performance in all areas of their operations. The QualServe assessment involves performance evaluations in 15 different areas through the use of a self-assessment questionnaire completed by ALL employees.”
5. C) Strategic decisions
Per “Manage for Success,” Chapter 7. Decision Making, Section 7.1 Decision Levels, “Strategic decisions are those that set, change, or directly affect the objectives, resources, and policies of the organization, and affect the utility’s mission, vision, and goals. Decisions at this level are among the most important responsibilities of a utility manager. Characteristics of strategic decisions include: • They typically involve relatively complex issues. • They carry the highest risk. • Few people are authorized to make decisions at this level.”
6. C) Operational Resiliency.
Per the Water Effective Utility Management website, Interactive Primer page, “The Ten Attributes of Effectively Managed Water Sector Utilities describe desired outcomes that are applicable to all water and wastewater utilities. . . Operational resiliency ensures utility leadership and staff work together to anticipate and avoid problems. Proactively identifies, assesses, establishes tolerance levels for and effectively manages a full range of business risks (including legal, regulatory, financial, environmental, safety, security, and natural-disaster-related) in a proactive way consistent with industry trends and system reliability goals.”
7. C ) Continual Improvement Management Framework.
Per the Water Effective Utility Management website, Interactive Primer page, “The Keys to Management Success are Leadership, Strategic Business Planning, Organizational Approaches, Measurement, and Continual Improvement Management Framework.”
8. B ) internal performance measurement.
Per the Water Effective Utility Management website, Interactive Primer page, “There are two general approaches to performance measurement. • Internal performance measurement. . . involves evaluating current internal utility performance status and trends. It can also include comparison of outcomes or outputs relative to goals, objectives, baseline status, targets, and standards. • Benchmarking. . . is the overt comparison of similar measures or processes across organizations to identify best practices, set improvement targets, and measure progress within or sometimes across sectors. A utility may decide to engage in benchmarking for its own internal purposes or in a coordinated fashion with others.”
9. C ) process control program (PCP).
Per “Manage for Success,” Chapter 8. Technical Issues and Regulatory Compliance, Section 8.2 Controlling the Treatment Process, “If the first step in developing managerial technical skills is understanding how and why a facility is designed the way it is, then the next major step is ensuring that it operates the way it was designed to operate. This is achieved by developing and managing a formalized process control program (PCP).
10. B ) Capital Improvement Planning (CIP).
Per “Manage for Success,” Chapter 9. Financial Management, Section 9.6 Capital Budgets, “Capital improvement planning (CIP) is the selection and scheduling of multi-year physical improvements. Consider the phased replacement of six wastewater pumping stations part of the CIP program.”
