Siemens to Provide System for Treating Flue Gas Desulfurization Scrubber Wastewater at the PSNH Merrimack Generating Station

(PresseBox) ( Erlangen, )
Public Service Company of New Hampshire (PSNH) has selected Siemens Water Technologies to provide a system to treat wastewater from a Flue Gas Desulfurization (FGD) scrubber being constructed at the Merrimack Generating Station in Bow, New Hampshire, U.S.A. The installation of the wet scrubber is required by state law and will significantly reduce PSNH emissions of mercury and sulphur dioxide. The wastewater treatment system will de-saturate the wastewater and remove suspended solids and metals, including mercury, from the scrubber waste stream so the water can be safely discharged. Designed for a maximum flow rate of 50 gallons per minute (11.36 m3/h), the system is scheduled to be completed in 2011.

Scrubbers are used in numerous U.S. power plants to meet emissions standards set by the U.S. Environmental Protection Agency (EPA) and/or state agencies. Flue gas systems frequently use limestone-forced-oxidation (LSFO) scrubbers to convert SO2 in the flue gas to gypsum, which can be recycled and sold for wallboard manufacturing, cement additive, or agricultural applications, thus turning a waste stream into a usable resource. This scrubber at Merrimack Station is being specifically designed to remove mercury from plant emissions, also. The proper design of scrubber wastewater treatment systems and the selection of materials of construction are critical. Both of these key items can have a major impact on the treatment plant's operation and reliability.

Siemens' scope of supply on the new physical/chemical wastewater treatment system for PSNH includes system design, equipment supply and installation, system start-up, staff training and system commissioning. The system will include equalization tanks, reaction tanks, chemical feed systems, clarifiers, gravity sand filters, storage tanks, sludge holding tanks, and recessed chamber filter presses. Equalization tanks receive the waste stream and equalize the flow to eliminate spikes in flow rates and concentration. Next, two trains, each with two reaction tanks in series,continue the treatment process to de-saturate the wastewater, reduce heavy metals, and prepare the wastewater for clarification. Reaction chemicals are added to the reaction tanks. Following the reaction tank trains, polymer is added and the wastewater enters the clarifier process, where suspended solids are coagulated and settled. Solids from the clarifiers are directed to sludge holding tanks prior to dewatering in the filter presses. The treated water from the clarifiers is sent to gravity sand filters for final treatment and then to treated water storage tanks prior to discharge.

Siemens is partnering with Northern Peabody LLC of Manchester, New Hampshire, who will provide installation services, including manpower and materials to construct the wastewater treatment system.

Merrimack Station is PSNH's prime base-load plant, operating continuously to meet its customers' electrical demand. It consists of two coal-fired, steam-electric generation units with a generating capacity of 443 megawatts, providing low-cost energy for customers.

Public Service Company of New Hampshire, based in Manchester, New Hampshire, is a subsidiary of Northeast Utilities System, which operates New England's largest utility system serving more than two million electric and natural gas customers in Connecticut, western Massachusetts and New Hampshire. The company has won numerous awards for its commitment to the environment.

Further information about solutions for water treatment is available at
The publisher indicated in each case is solely responsible for the press releases above, the event or job offer displayed, and the image and sound material used (see company info when clicking on image/message title or company info right column). As a rule, the publisher is also the author of the press releases and the attached image, sound and information material.
The use of information published here for personal information and editorial processing is generally free of charge. Please clarify any copyright issues with the stated publisher before further use. In the event of publication, please send a specimen copy to