SR0081266 SSNL - Laserfiche WebLink

Home Browse Search

01 October 2019 AdvancedGeo AGE Project No. 19-4850 Environmental Page 12 of 14 denitrify the concentrations by approximately 30 percent and less desirable soils with more sands and faster percolation rates (less moisture and clay content) denitrify only about 10 percent. A denitrification factor of 25 percent was selected for the calculation based on the silty clayey fine-grained sand soil existing at the site. 9.6. MASS BALANCE OF NITROGEN LOADING The EHD requires the user to consider all potential sources identified for wastewater generation. Further, the EHD supports the use of Hantzsche/Finnemore, or other appropriate formula/model to calculate a mass of nitrogen loading. COMMERCIAL: The Hantzsche / Finnemore (Nr) equation for residential home application: Nr = IxNw (1-d) + RxNb = (I+R) Definitions: Nr= The average concentration of nitrate-nitrogen in the recharged waste water parts per million of nitrate-nitrogen. I = Volume rate of wastewater entering the soil averaged over the gross developed area (acres) in inches per year. The total wastewater volume for proposed project will be 240 gpd (existing system/use) + 80 gpd (added future use) x 260 days of proposed operation = 320 x 260 days _ 7.48 gallons per cubic foot = 11 ,123 cubic feet of wastewater. Does not account for evapotranspiration likely to occur. NW = Total nitrogen concentration of wastewater at 45 mg/L-N based on the average discharge. Accounting for the loss of mg/L-N in the septic tank at 15% = 45-15%= 38.25 and the loss from the biomat at 10% 38.25 - 10% = 34.425 mg/L-N d = Fraction of nitrogen concentration removed from the wastewater due to denitrification within the soil (25 percent for clayey loam/loamy clay type soils). R = Estimated Deep percolation / average rainfall recharge rate per year: 3.72 inches. Nb = Background nitrate-nitrogen concentration of rainfall recharge, from wastewater influences. COMMERCIAL CALCULATIONS: Nr = IxNw (1-d)+ RxNb = (I+R)