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Pearson Farm Residential Development EAW Draft—March XX,2017 <br /> Sanitary wastewater production for the project was estimated using methods described in the Sewer <br /> Availability Charge (SAC)Procedure Manual(Metropolitan Council 2017). Metropolitan Council <br /> has established 274 gallons per day(GPD)as the average daily wastewater production from a typical <br /> residential unit. Based on this residential equivalent,the project is expected to generate a maximum <br /> of 94,256 gallons of wastewater per day. An 18-inch sanitary sewer line will be extended from <br /> Bunker Lake Boulevard and Puma Street to serve the development area. The project will require <br /> installation of a sanitary sewer lift station along Puma Street to serve roughly the northern two-thirds <br /> of the site. The southern third of the site will be served by a gravity sanitary sewer main that will <br /> drain to Puma Street. <br /> Domestic wastewater from the project will be routed through the City of Ramsey sanitary sewer <br /> system and ultimately to the Metropolitan Wastewater Treatment Plant(MWWTP)located on the <br /> Mississippi River near Pig's Eye Lake in St. Paul. With the capacity to treat 251 million gallons of <br /> wastewater per day(MGD),this is the largest wastewater treatment facility in Minnesota. The <br /> MWWTP is owned and operated by Metropolitan Council. The Metropolitan Council's 2040 Water <br /> Resources Policy Plan includes a specific plan to serve the region's projected growth through 2040 <br /> and a general plan to serve the region's growth far beyond 2040. The City of Ramsey and <br /> Metropolitan Council have planned for increased capacity to convey and treat sanitary wastewater. <br /> The proposed project is not expected to require expansion of wastewater treatment infrastructure or <br /> raise wastewater treatment capacity concerns. <br /> 2) If the wastewater discharge is to a subsurface sewage treatment systems (SSTS), describe the <br /> system used, the design flow, and suitability of site conditions for such a system. <br /> Wastewater will not be discharged to subsurface sewage treatment systems. <br /> 3) If the wastewater discharge is to surface water, idents the wastewater treatment methods and <br /> idents discharge points and proposed effluent limitations to mitigate impacts.Discuss any <br /> effects to surface or groundwater from wastewater discharges. <br /> Wastewater will be treated in the MWWTP described above and then discharged to the Mississippi <br /> River. The MWWTP is an advanced secondary wastewater treatment plant located on the east bank <br /> of the Mississippi River, approximately three miles south of downtown St. Paul. The plant began <br /> treating wastewater and incinerating sewage sludges in 1938.Treatment capability is maintained <br /> during times of flood by a levee and floodwall that protect the plant treatment area. <br /> The plant uses an activated sludge process to remove phosphorus and ammonia nitrogen from <br /> wastewater prior to discharge to the Mississippi River. Sludge is processed by thickening, <br /> centrifugal dewatering, and fluidbed incineration with energy recovery(steam and electricity).These <br /> processing facilities were completed in 2004 as part of a major rehabilitation and upgrade program at <br /> the plant. At that time, six outdated multiple hearth incinerators were replaced with three fluid bed <br /> sludge incinerators,state-of-the-art air pollution control systems and an alkaline stabilization system <br /> that produces biosolids for agricultural utilization. Ash from incineration is disposed of in a landfill. <br /> ii. Stormwater-Describe the quantity and quality of stormwater runoff at the site prior to and post <br /> construction. Include the routes and receiving water bodies for runoff from the site(major <br /> 12 <br />