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• The estimated flow values discussed here should not be used for the design and sizing <br /> of the septic system. The design and sizing of the septic system should utilize the San <br /> Joaquin County Environmental Health Department's On-Site Wastewater Treatment <br /> Systems Standards (2016) which incorporate peak and surge flow factors. The <br /> estimates used in the On-Site Wastewater Treatment Systems Standards may be <br /> greater than those discussed here. <br /> Based on five bedrooms total at 140 gallons per bedroom per day, the maximum <br /> average daily flow for the Site was estimated to be 700 gallons per day (gpd). A typical <br /> residential concentration of 35 mg/L of nitrate as N was selected (Crites and <br /> Tchobanoglous, 1998). <br /> Denitrification Reductions <br /> Denitrification is a process that occurs in the septic system drain field whereby certain <br /> bacteria oxidize the nitrate (NO3) in the waste water and release nitrogen gas (Nz) to the <br /> atmosphere. Due to the biologic processes in the shallow soils, nitrogen in the drain <br /> field may undergo a reduction between 10 percent to 35 percent. Soils with higher clay <br /> content, moist soil conditions, high pH, and organic material denitrify by about 35 <br /> percent, and soils with high sand content and fast percolation rates tend to denitrify at a <br /> lower rate of about 10 percent. <br /> The soil on the Site was found to be silty, fine sand. A typical denitrification factor of 25 <br /> • percent was selected for the Site because of the silt content of the shallow soil near the <br /> proposed new residence. <br /> Nitrate Loading Estimate <br /> A nitrate loading scenario was employed to determine the impact from the project to <br /> ground water. The scenario utilizes the variables discussed previously, which represent <br /> the estimated conditions and uses associated with this project. The following table <br /> presents a summary of the assumptions for the nitrate loading calculation for the Site, <br /> as presented in Plate 9. <br /> • LOGE 1807 Page 8 <br />