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IV. ONSITE WASTEWATER TREATMENT SYSTEM DESIGN OF <br /> OPERATIONAL PARAMETERS AND COMPONENTS <br /> SSS§3.7. The following is a description and applicable calculations of the wastewater <br /> management system structures and operations. <br /> A. SEPTIC TANK CALCULATIONS <br /> Septic tanks store the accumulated sludge, scum and effluent(clear zone) volumes, which in turn <br /> affect treatment of nitrogen within septic tanks. <br /> Detention Time Calculation: <br /> Detention Time=2,000 gal proposed tank capacity x 0.70(30%volume lost to sludge/scum accumulation) <br /> 1.5 (Peaking factor)x 215 gals/day(calculated ADF) <br /> Detention Time=4.3 days. The minimum acceptable detention time is 1.0 days. Therefore,a proposed <br /> tank size of 2,000 gallons is adequate for sufficient hydraulic residence time(HRT). <br /> B. FILTER BED DESIGN, EFFLUENT MANAGEMENT AND NITRATE MITIGATION <br /> The configuration of the effluent disposal structure will be as a pressurized filter bed: <br /> 1,200 gallon Base Tank Capacity(BTC)+Average Daily Flow(ADF)= 1,200+215 gpd = 1,415 gals. <br /> 1,415 gals x 0.250(SF)=354 lineal ft of leachline(LFLL). 354 LFLL x 4= 1,415 sq ft of filter bed area. <br /> The primary disposal area is to consist of the filter bed and adjacent sump: <br /> 75 ft N-S x 20 ft E-W= 1,500 sq ft. <br /> The septic tank, primary and 100%replacement areas are denoted on the attached OWTS <br /> Schematic Plans and the Site Plans produced by Wong Engineers. Effluent management: Influent <br /> will enter the septic tank, which will be situated north of the Shop Building. Effluent will be <br /> pressurized through an Orenco BioTube with a duplex pump system to be equally distributed <br /> through three, 1" dia. perforated laterals with.orifices spaced every 5'. <br /> At the north end of the filter bed, the contractor is to excavate a 2' wide x 20' long x 8' deep sump. <br /> A 1' wide x 1'high dam will separate the filter bed from the sump. This will force effluent to <br /> remain within the filter bed and be absorbed by the soil at the floor of the filter bed. Although the <br /> soil permeability is slow at this 30" depth, the clay type soils are favorable for nitrate mitigation. If <br /> these soils cannot manage the effluent flows, or under extreme hydraulic stress from rainfall, <br /> effluent will flow over a 1'high dam, covered in filter fabric to prevent erosion, and into the sump <br /> where permeability is favorable. <br /> NLS§3.2. In addition to forcing the shallow 30" deep soils to mitigate nitrate loading, a <br /> secondary design concept of the wastewater management system for the mitigation of nitrate <br /> loading will take advantage of evapotranspiration. An indeterminable percentage of effluent and <br /> subsequently the nitrogen within the effluent will be transpired by a deep rooted lawn(e.g., <br /> bluegrass) to be planted over the disposal area. <br /> 7 <br /> Chesney Consulting <br />