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WORKSHEET 2 <br /> EXAMPLE CALCULATION FOR AVAILABLE MINERALIZED ORGANIC <br /> NITROGEN <br /> The organic nitrogen in sewage sludge continues to decompose and release mineral nitrogen through the mineralization process <br /> for several years following its initial application. This residual nitrogen from the previously applied sewage sludge must be <br /> accounted for as part of the overall nutrient budget when determining the agronomic rate for sewage sludge. Residual nitrogen <br /> can be determined through soil analysis or calculated using the following procedure. These calculations must be done for each <br /> yearly sewage sludge application unless soil analysis is performed prior to land application(see example calculations). <br /> Instructions: Complete a separate table for each year sewage sludge was land applied. Note that most do not calculate <br /> beyond the third year because the values become negligible. Sum the values of mineralized Org-N(Column d) from <br /> each table for the particular calendar year you're trying to determine Org-N available. (See example below.) <br /> a. Year` b. Starting Org-N2 c. Mineralization d. Mineralized Org-N4 e. Org-N <br /> (kg/ha) Rate'(Exhibit E-3) (kg/ha) Remaining$ (kg/ha) <br /> 0-1 (year sewage sludge 137 0.2 27 110 <br /> was applied) <br /> 1=2 (Istyearafter) 110 0.1 11 99 <br /> 2-3 (2nd year after) 99 0.05 5 94 <br /> t Begin with year sewage sludge is applied,and continue for 2 more years. <br /> Z In the first year,this equals the amount of Org-N initially applied. In subsequent years,it represents the amount of <br /> org-N remaining from the previous year(i.e.column e). <br /> 3 The org-N content of the initially applied sewage sludge continues to be mineralized,at decreasing rates,for years <br /> after initial application. See Exhibit E-3 for mineralization values. <br /> 4 Multiply column b and column c. <br /> 5 Subtract column d from column b. <br /> Example <br /> Assume that anaerobically digested sewage sludge with a 3%org-N content(dry weight basis)was applied to the site at a rate of <br /> 5 mt/ha in 1986. The following year, 1987, 3 mt/ha of sewage sludge(same org-N content as in 1986)was applied to the same <br /> site. It is now 1988,and you want to calculate the available nitrogen from previous sewage sludge applications. <br /> In 1986,the org-N in the sewage sludge applied = (0.03)(5 nit/ha)(1,000 kg/int)= 150 kg/ha. <br /> In 1987,the org-N in the sewage sludge applied = (0.03)(3 mt/ha)((1,000 kg/nit)=90 kg/ha. <br /> Calculate the available nitrogen from 1986 and 1987 in the following manner(assume anaerobically digested sewage sludge). <br /> a. fear* b. Starting Org-N c. Rtineralization d. Mineralized Org-N e. Org-N <br /> (kg/ha) Rate(Exhibit W-2) (kg/ha) Remaining (kg/ha) <br /> 1986 Sewage Sludge <br /> 0-1 (first application-1986) 150 0.2 30 120 <br /> 1-2(1987) 120 0.1 12 108 <br /> 2-3(1988) 108 0.05 5.40 102.6 <br /> 1987 Sewage Sludge <br /> 0-1 (first application-1987) 90 0.2 18 72 <br /> 1-2(1988) 72 0.1 7.2 64.80 <br /> 2-3(1989) 64.8 0.05 3.24 61.56 <br /> To determine the total mineralized organic nitrogen available in 1988 from the sewage applied in 1986 and 1987, add the <br /> mineralized Org-N value in the 1988 row of column d of the table for the 1986 sewage sludge to the mineralized Org-N value in <br /> the 1988 row of column d of the table for the 1987 sewage sludge (i.e., 5.40 + 7.2 = 12.6 kg/ha). Total mineralized Org-N <br /> available in 1988 from previous sewage sludge 12.6 kg/ha. <br /> E-8 *Facsimile page fraan EPA Land Application ofSeivaee Skidee <br />