What does the future hold for wastewater treatment? This is the question I always ask myself when I think about the technology that is out there. When I was given the opportunity to observe other plant’s technology, I jumped at the chance. I was the lucky person to participate in the operator exchange program between Massachusetts Water Pollution Control Authority (MWPCA[1]) and Connecticut Water Pollution Abatement Association (CWPAA[2]), my home state’s wastewater organization. As this event only presents itself once every year, I was not about to turn down this opportunity. I wanted to see for myself what other technologies existed that we did not have yet and what the future holds in our field of environmental protection.

            Mike Foisy of the MWPCA, contacted me and was asked what I wanted to see? I replied, something new, innovating, and something I had not seen before! After a brief discussion, Mike said he would do some research and come up with an intriguing itinerary and that he did! On the first day of the exchange Mike and I visited three very interesting plant’s located on the Massachusetts coast, Wareham, Scituat, and Cohasset.

When we arrived in Wareham, we were greeted by Dave Simmons, the Chief Plant Operator. Dave first started us off by giving Mike and I the basic facts about his plant. The Wareham plant is an extended aeration plant with a daily average flow of 1.6 million gallons per day (mgd), with wet weather exceeding 2 mgd. Any flow over 1.6 mgd, is diverted into equalization tank’s to be added at low flow times. The plant consists of a headwork’s building, from there the influent goes directly into the extended aeration tank where floating mechanical mixer’s are located. Here poly-alum chloride is added for phosphorus removal. The mixed liquor then flows from the aeration tank to the secondary settling tank. The secondary effluent flow moves to the denitrification filters. At the denitrification filter’s, methanol is added and the flow continues into sand filters that are similar to a rapid sand filter for water treatment. From there, the flow goes through an ultra violet (UV) light disinfection, and finally to the ocean!

After Wareham, Mike and I proceeded north on Route 3 to Scituat to meet with the Chief Plant Operator, Robert Roland. When Mike and I made our way into the plant, we were greeted by Rob. Rob first started off with the licensing requirements of wastewater operators in the state of Massachusetts.

In Massachusetts, an operator who successfully passes an exam obtains a “diploma” stating that then can treat wastewater.  However, every two years an operator is required to get a certain amount of continuing education credits (CEU’S), to maintain their licenses. This was quite interesting, because the State of Connecticut is considering this idea, but has yet to implement this requirement. 

Rob went on to some facts about his conventional activated sludge plant. The plant’s flow is 1.6 mgd with wet weather of 3.0 mgd. The plant contains an aerobic digester where sludge is also thickened. During our plant tour, Rob pointed out his nitrogen removal process area, denitrification filters with methanol addition, a Trojan horizontal mount U.V. system and a contact chamber.

I asked Rob about the contact chamber and why it was covered. He said the cover is due to duck’s swimming in the chamber, and using it as a toilet and fouling up their fecal coliform test. That was the first time I had seen this approach to keeping the ducks away. Now it was time to say good bye, Mike and I were now on our way up to Cohasset to see a membrane flirtation plant, this would be the highlight of the day!

 

 

 

As we approached the center of Cohasset, we stumbled across the entrance to the plant. If you do not know what to look for, you will miss the driveway to the plant, I know, we missed it twice. We stopped at the Cohasset Fire Station for directions, the fireman pointed across the street and there it was, well hidden in this community. As we pulled into the driveway, we ran into the Chief Plant Operator, Richard Nye who works for Veolia Water’s North America Division[3] . Richard took us into his office and proceeded to provide us some facts about this “unique” plant.

 The Cohasset plant is a micro filtration plant that uses membrane bioreactor (MBR) technology. The Cohasset plant uses Zenon technology or what is commonly called ZEEWEED. MBR technology is used mostly in small package plants to reduce the overall foot print of a plant when space is an issue, as is the case in Cohasset. The plant’s flow of 400,000 gallons per day (GPD) is about the maximum capacity for the MBR system because wet weather flows are too much for the plant to handle on some occasion, but Richard and his staff are always prepared.

When Richard gave us the tour, I was very surprised at how little space he had for a foot print to fit his plant. The plant itself  consists of two small buildings and a holding tank. The main building contains the actual treatment plant, while the smaller building contains the blowers for the process. Richard then showed us his UV system and his plant’s effluent. The effluent is the cleanest I have ever seen. It was as clean as drinking water. I was very impressed with this and his plant.

On Tuesday, Mike, myself and two of his fellow coworkers were off to Deer Island Treatment Plant[4], the second biggest plant in the United States based on flow, located in north Boston, in the town of Winthrop. As we approached the entrance to the plant, iconic egg shaped digesters were visible, but I could not see or smell the treatment plant tanks. I was wondering where everything was. I though to myself did the cover it up and put it under ground? My questions would soon be answered.

Round Building; South System Pump Station to Nut Island

Covered, Stacked Primary Clarifiers directly behind Pump Station

Covered, Pure Oxygen Aeration Tanks, Yellow Aerator Drives

Final Clarifiers at the back of the photo

Upon our arrival, Charles Tyler, or Charlie, greeted us at the security gate. Once we parked, Charlie led us to the administration building for an overview of Deer Island. During the briefing, I received a copy of their Daily monthly report, which was literally a small book. Deer Island maintains a staff of twenty people just to complete the report every month. This provides you an idea of the size and complexity of this plant. My questions were about to be answered of how, where and why Deer Island is the way it is.

3,500 Horsepower Motors for the North Main Pump Station, Total of Ten Pumps

 

Charlie proceeded to tell us about the stacked clarifiers, primary and secondary, the pure oxygen aeration basins, the egg shaped digesters, the water turbine on the plant effluent channel, and the diffuser field sitting on the ocean floor, nine miles off the coast of Deer Island. I could go on and on about Deer Island but in brief, it is like any other activated sludge treatment plant, just bigger in size from equipment, to staff, to tank size. Deer Island is the ultimate place to visit and to see things on a much grander scale. The treatment plant makes you feel like a Barbie doll in a human sized house

 

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Egg Digester with Sludge and Gas Holding Tank in the Background

90 Feet in Diameter, 128 Foot Water level

12 Digesters @ 3,000,000 Gallons each

 

 

Exchange Operator Kevin Shlatz and Charlie Tyler at The Effluent Diffuser Memorial,  55 Total Diffusers, 53 Diffusers are active, Located nine miles offshore.

My last plant of my two-day tour was Upper Blackstone Water Pollution Abatement District (UBWPAD 6), located in Millbury Massachusetts. This is where my host, Mike Foisy works. The Upper Blackstone treatment plant is a regional facility that handles surrounding towns and cities. Blackstone is going through a $200 million dollar upgrade. I was able to observe the largest secondary clarifiers in Massachusetts in operation and one under construction. The Upper Blackstone is well on its way to meeting the future needs of its customers.

Upper Blackstone Treatment Plant, Primary Clarifiers and Aeration Tanks

156 ‘ Diameter Final Clarifier, Largest in Massachusetts

After spending two days touring different treatment plants of various sizes I learned many different things and came away with many grand ideas. In our ever- changing world we need to adapt to survive. One day we will have to re-use everything we have on this planet including the wastewater we treat. It can be done and is being done on smaller scale projects in different parts of the world and in our own country. Also with only so much land to go around, we can build bigger treatment plants in smaller foot prints than we have in the past. Sooner or later cost will not be an issue and people will realize how vital wastewater treatment is, and how the re-use of the secondary effluent will be vital to our growing planet.

I would like to thank Mike Foisy form Upper Black Stone treatment plant for being an awesome guide through my three-day visit. I would also like to thank my plant hosts and the towns they work in for hosting my visit. I would like to thank my supervisor, Mike Emound, and my Department head, Ed Soper, for supporting my participation in this program that afforded me this eye opening experience. Everyone should be given the opportunity to participate in this worthwhile program.