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V. CONCLUSIONS AND RECOMMENDATIONS <br /> SSS§5.4, 6.8. The shallow subsurface soils at 36" below existing grade where the proposed <br /> filter bed is to be installed, reveals a slow permeability. There is a change in soil structure at <br /> approximately 5-ft below grade from a sandy clayey silt to a silty sand. Permeability is highly <br /> favorable at the 8-ft sump depth. <br /> The acceptance/application rate correlated with the observed perc rate as referenced on Page 3 is <br /> determined to be 0.123 gals/sq ft/day. Therefore,the shallow filter bed soils at the 30" inch depth <br /> will theoretically accept 1,400 sq ft x 0.123 gals/sq friday= 172 gpd. If the soil at this depth <br /> cannot manage incoming effluent/rainwater,the adjacent sump will temporarily manage inflow. <br /> The sump floor exclusively can theoretically manage: <br /> 2' x 20'=40 sq ft x 1.2 gals/sq friday=48 gpd. <br /> In addition to taking advantage of the native filter bed soils for nitrate mitigation, a sustainable <br /> factor has also been incorporated into the OWTS design. It has been observed that the roots of <br /> deep rooted grasses can penetrate filter fabric to some extent, which separates the backfilled top <br /> soil from the drain rock. This penetration allows the grass to utilize an indeterminable portion of <br /> the ammonium fraction of the septic effluent as a food source and alleviate nitrate loading. This <br /> project specifically utilizes CIMIS evapotranspiration data due to this grass utilization design and <br /> the ETo data is correlated with evapotranspiration from reference grass. Data from Region 12 <br /> indicates ETo to be approximately 47 inches during the domestic irrigation season of March <br /> through October, and specifically for the following months: <br /> April: 5.27" irrigation water <br /> May: 5.98" <br /> June: 7.99" <br /> July: 8.46" <br /> August: 7.65" <br /> September 5.54" <br /> Therefore, a landscape contractor should set the irrigation not to exceed this value throughout the <br /> irrigation season. In addition,when the lawn is mowed,the clippings must be transported off-site <br /> and not allowed to fall back into the grass, otherwise,the nitrogen cycle is completed and <br /> potentially adds more nitrogen to the underlying disposal area. <br /> NLS§ 4.1. The nitrate loading calculations show the resultant effluent from the subject property <br /> will theoretically possess a nitrate-nitrogen concentration of approximately 1.8 ppm which is <br /> approximately one-fifth the Federal nitrate Maximum Contaminant Level (MCL). <br /> NLS§4.2, SSS§6.7. All On-site Wastewater Treatment Systems (OWTS)will eventually fail. A <br /> reasonably long lifespan for the primary area system can be expected based on the proposed design <br /> of the OWTS consisting of equal distribution of effluent under pressure,and the indigenous clay <br /> loam soil structure with an acceptable permeability. This lifespan can be measured in years provided <br /> the system is not abused with influent consisting of fats,oils, and grease(FOG)and other <br /> components that EHD would deem as an illegal disposal, such as petroleum hydrocarbons, etc. <br /> 8 <br /> Chesney Consulting <br />