Cost Effective Solutions For Non Hazardous Industrial Wastewater Generators. Mbbr
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By Sam Butterfield
A New Approach to Wastewater Disposal:
Cost-Effective Solutions for Non-Hazardous Industrial Wastewater Generators
Formed in 2005, NewStream is an environmental services company specializing in high technology industrial wastewater treatment and high purity process water. Originally built for Texas Instruments (TI), the facility has a treatment capacity of up to 800 gallons per minute of wastewater and the ability to deliver 325 gpm of high purity process water.
The founders of NewStream have transformed the former single-user facility (formerly Texas Instruments)into a successful commercial enterprise. Having received the first permit of its type ever to be issued in Massachusetts, NewStream now receives an average of 10 truckloads per day of non-hazardous wastewater from off-site sources. Additionally, the same network of pipelines that once allowed all of TIs on-site manufacturing operations to send their wastewater to the plant now allows NewStream to treat wastewater from tenants on site.
As a result, the facility was able to maintain an on-site surface water discharge for the majority of its wastewater effluent under a National Pollution Discharge Elimination System (NPDES) permit, meaning that water discharged from the facility will not harm even the most sensitive aquatic organism. With additional flows that discharged to the City of Attleboro sewer system under a pretreatment permit, the facility processed up to 0.75 MGD.
Sam Butterfield of Butterfield Environmental Corporation (BEC) in Plymouth, MA, then a supplier and consultant to TI and a veteran of the industrial wastewater industry in New England, saw an opportunity to grow his business and put the high-tech plant to good use. He joined forces with John Theriault, former Chief Operator of the treatment plant for TI, and now co-owner and VP of Operations for NewStream.
The path was clear that NewStream would have to work as a non-hazardous waste management and recycling facility, or not at all. However, since non-haz wastestreams are loosely tracked at best, and industry knowledge is closely guarded, concrete market data was practically impossible to obtain. Research was limited largely to anecdotal sources. Estimates of over-the-road non-haz wastewater volumes ranged from “not that much” to “huge”, and disposal pricing ranged from $0.05 to $1.25 per gallon. On the other hand, both present and potential generators of non-haz wastewater (and other, potentially recyclable, industrial/commercial materials) ranged wide and deep, all the way from large process industries to flooded basements and everything in between. With no way of quantifying just how much water there was or what NewStreams market share could be, jumping into the market required a great leap of faith.
On the regulatory front, the Massachusetts DEP had no precedent for this type of permit since it was the first of its kind ever to be issued in the state, and MADEPs interpretation differed from the EPAs as to how the facility would be qualified. For example, was it a CWT (Centralized Waste Treatment) facility, and thereby allowed to accept waste from off-site sources, or not? The City of Attleboro also weighed in with a good deal of anxiety about what exactly qualifies as non-hazardous wastewater and how it would affect their own POTW.
Other questions included: Would existing technology and configuration of the plant be sufficient to treat the variety of waste streams that could potentially be received at the plant? Would it be feasible to separate the wastewater treatment plant from a site that had grown so organically over the years?
With many of these questions still unanswered, NewStream opened its doors and its pipelines to off-site wastewater in July of 2005 with the issuance of a new sewer discharge permit from the MADEP and the City of Attleboro.
Diversification
During the first full year of operation, several opportunities arose for NewStream to expand is service offerings. Most significant was utilizing the tremendous resources of the former TI environmental group for specialized environmental services such as decommissioning and decontaminating industrial facilities. A good deal of work was done for TI as it transitioned out of its manufacturing operations, as well as other companies who heard about NewStreams expertise in these areas. Services have since been expanded to include contract operation of other industrial water and wastewater treatment facilities, chemical management and environmental monitoring.
Another addition to the service and product line was antifreeze recycling. As a non-haz material, NewStream could accept used antifreeze, collected in small bulk from auto dealerships, service centers and fleet vehicles, process it to recover ethylene glycol, and produce a recycled anti-freeze product for sale back into the automotive market. Rather than investing large capital expenditures for new equipment, NewStream was able to convert one of its three large and sophisticated Reverse Osmosis (RO) units from the plants high purity water process into a nano-filter for glycol recovery. The addition of a small Ion Exchange system for chloride removal was all that was needed to allow NewStream to recover a high quality recycled product from the used material.
The recovered product is then refreshed with virgin ethylene glycol, corrosion inhibitors, and dye packages to meet customer specifications. The recycled antifreeze can be shipped from NewStream in bulk or drums at very competitive prices.
NewStreams goal is to generate recycled material that is as high quality as virgin material. The recycled material can be sold back to the generator and/or to third parties for re-use in applications such as:
Major auto and truck manufacturing
Aftermarket automotive service
Consumer use (retail)
Fed, state, local government use
Military applications
Other processes on the drawing board include recovery of clean “Specification Used Oil Fuel” (a “regulated recyclable” material under Mass regulations) from water-contaminated tank bottoms and the like, recovery of recyclable gasoline from gas/water mixtures, and recovery of oil and recyclable metals from used oil filters.
Process Challenges and Modifications
Once the permits were in place, the word was out and the water started flowing in, many challenges still remained. The nave assumption was that since this sophisticated plant, with all its technology, could treat almost any type of hazardous wastewater, any non-hazardous wastewater would be handled with ease. That was not the case: the NewStream team was surprised at the diversity and complexity of the waste streams that were coming in, and by the high volume of high-strength organic wastestreams. Many streams, such as latex waste from the textile industry, had peculiar characteristics that demanded special processing. Others came with odor problems. All streams had to be screened carefully for hidden toxicity characteristics that might pass through to the POTW.
NewStream quickly began a series of process modifications that would allow for optimum efficiency and treatment performance in the plant. The most significant improvement was the addition of eight 10,000-gallon holding tanks. The tank farm enables the Company to isolate, analyze and batch treat each individual waste stream as it comes off the truck.
The primary advantage to the tank farm system is the guarantee that each and every load arriving at the plant will receive optimum pre-treatment to remove a large bulk of contaminants prior to being equalized with other waste streams. The tank farm allows for greater cost efficiency and in general, better control of the treatment process.
Each new waste stream coming into the plant now receives its own unique treatment recipe. The recipe goes on record in a sort of operators cookbook, which is followed each time a load of the given stream comes in. Ultimately, the batch treatment process will be automated, allowing operators to plug in a waste profile number to the programmable logic controller (PLC) and automatically treat the entire batch. This method will eliminate operator error and provide for better control over chemical dosage rates, mixing speeds and times.
Automated batch treatment works with a variety of different treatment processes, including gravity clarification, chemical oxidation, dissolved air flotation and even biological treatment methods, such as a moving bed bio-reactor (MBBR).
The MBBR is another new technology that NewStream expects to put online in 2007. (At this writing, a pilot-scale system is being successfully operated at the plant.) The bioreactor will enable NewStream to treat waste streams with high biological oxygen demand (BOD) by converting contaminants into organic mass and gases.
Specifically, the MBBR technology being tested at NewStream uses thousands of biofilm carriers operating in mixed motion to increase the surface area for attached fixed film bacteria. The system offers higher productivity than many other biological systems in use today.
WEF 6/8/2007 6 Cost Effective Solutions for Non-Hazardous Industrial Wastewater
Other process modifications included retrofitting the existing reverse osmosis (RO) unit as mentioned above in the discussion about antifreeze recycling, and converting two 10,000-gallon tanks for removal of any non-emulsified oil and grease prior to chemical treatment.
Quality Control
In order to maintain the high standards of treatment expected of NewStream, strict quality control has been critical. Before accepting any waste stream, NewStreams Quality Control Manager performs extensive treatability testing to:
1. Pre-screen incoming wastestreams to establish influent levels of several contaminants, including metals utilizing a direct coupling plasma (DCP) unit as well as COD, TSS, and pH.
2. Determine whether the stream can be treated effectively enough to meet NewStreams discharge permit limits, and
3. Establish a treatment “recipe” for each stream to be optimally batch treated (as discussed above).
Once accepted for processing at the facility, QC must be maintained throughout receiving, treatment and discharge processes. This is accomplished with the use of a Receiving Log that travels with the retain sample and the load itself through the process, getting multiple QC checks at critical points along the way, until it is finally cleared for discharge from the plant.
A COST COMPARISON
So, when does it make sense for a non-hazardous industrial wastewater generator to truck their water off site to NewStream, as opposed to building and operating their own on-site wastewater treatment plant?
An example: NewStream has a customer that manufactures several different health and beauty products. Upon introducing a new product line, the company was notified that they were now in violation of their existing sewer discharge permit. The process associated with manufacturing the new product was generating wastewater that added several new contaminants to the stream.
The company considered a complete overhaul of their existing treatment system in order to treat the wastewater generated from the new process. To do everything required to meet permit limits, the capital costs would have been $540,000. O&M costs for the system were estimated at $125,000 per year, not including sewer discharge fees. The cost to haul one truckload of wastewater per week to NewStream is $104,000 per year. In this case, the cost-benefit is clearly in favor of trucking, especially since the success of the new product line was not yet known and the company was hesitant to make the long-term investment in waste treatment equipment.
About the Author: Written by: Samuel H. Butterfield, CEO, NewStream LLC, Attleboro, MA 02703 USA. Web site:
NewStreamH2O.com
. Tel: 508-236-6001.
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