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C. WASTEWATER FLOW CALCULATIONS AND CHARACTERISTICS <br /> Domestic wastewater flows have been studied for decades with variable data published in the <br /> scientific literature. Wastewater flows will be managed by on-site septic systems. The total <br /> daily water use is a combination of household and personal uses, as itemized below: <br /> HOUSEHOLD PERSONAL USE <br /> 25 gal for laundry 2 gal for drinking and cooking <br /> 10 gal for dishwashing 3 gal for oral hygiene <br /> 5 gal for mist. use 14 gal for bathing <br /> 16 gal for toilet flushing/sink washing <br /> FLOW RATE in galslhomelday = 40 gals/household/day+(35 gal/person/day x number of persons/home). <br /> Assuming the average household within the project will have 4 persons per house (husband. wife <br /> and two children), the daily wastewater flow rate can be estimated at: <br /> 40 gals + (35 gals x 4 people/home) = 180 gals/day for an average flow per resident of 45 gals. <br /> Although the residential structures must be built with water saving devises and fixtures, as a <br /> safety factor.. the average flow per resident will be increased by 1.5x to 68 gals/resident/day. <br /> The peaking factor for individual residences on septic tanks will vary with the day of the week <br /> and usage. Peak hourly rates are normally associated with the discharge of clothes wash <br /> machines, dishwashers and shower/bath water. The ratio of the peak day to the average day can <br /> vary from 1.5 to >5, depending upon the time of the year and usage. <br /> The characteristics or composition of septic tank effluent is dependent upon several parameters <br /> because of idiosyncrasies within each household. Certain appurtenances change the <br /> characteristics of the wastewater effluent such as filter vaults within septic tanks and kitchen <br /> food-waste grinders. In determining nitrogen concentrations of septic influent and effluent, per <br /> capita intake of nitrogen per day must be estimated. The average American consumes between <br /> 70 and 140 g of N/day. Since nitrogen comprises 16% of tllc weight of the average protein, 16% <br /> of 70 g N — 1 I g N/capita/day and 16% of 140 g N = 22 g N/capita/day. The average of these <br /> two values is 17 g N/capita/day of theoretical influent. <br /> The concentration of nitrogen in septic system effluent is normally specified in the scientific <br /> literature as units of mg NIL. Unfortunately, these units superimpose wastewater flow variability <br /> onto nitrogen influent variability, thus creating even greater variability. One researcher, <br /> (Bauman), has averaged the means From 20 other studies to arrive at a concentration of 62 + 21 <br /> mg N/L in septic tank effluent. If the above figure for wastewater discharge is estimated at 68 <br /> gals/resident/day (257 liters) and using the figure of 17 g N/cap/day excreted— 17 g - 257 1, = 66 <br /> mg N/L/day estimated for the proposed project. This concentration will be the estimated <br /> nitrogen loading in the effluent discharged throughout the project. <br /> 6 <br />