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3-14 <br />the 100-year flood-flow of 1,025 cubic feet/second (cfs ) within its banks with an additional <br />one foot of freeboard. In the event that a 500-year flood occurs (1 ,100 cfs. according to <br />FEMA Flood Flows ), the excess flow will spill over the northern bank and into the ad jacent <br />farm land . rather than affecting Forward Landfill. Based on the realignment of the North <br />Fork of South Littlejohn's Creek . the landfill property is not located within the predicted <br />elevation of the 500-year flood zone . Therefore , the existing realignment does not require <br />an assessment for potential erosion or saturation of the landfill. <br />The South Fork of South Littlejohn's Creek runs south of and ad jacent to the southern <br />perimeter of the refuse footprint of the landfill. From the FIRM map (Map No. 06077C <br />Panels 0635F and 0630F). the existing South Fork of South Littlejohn's Creek is labeled as <br />"Zone AD . (Depth 1 )". indicating depths of one foot. and Zone AE . indicating base flood <br />elevations within the creek. These current flows are very slow and non-erosive and as a <br />result. will not inundate or potentially erode the ad jacent creek or inundate the landfill. The <br />predicted elevations from the 500-year flood event range from 40.5 feet on the southwest <br />edge to 43 feet on the east edge of the landfill along Austin Road and this level is only one <br />to two feet higher than the toe of existing landfill slopes. The existing South Fork of South <br />Littlejohn's Creek was designed to channel the 100-year flood flow of 1.550 cfs within its <br />banks and an additional one foot of freeboard. In the event that a 500-year flood occurs <br />(1 .700 cfs . according to FEMA Flood Flows ). the excess flow will spill over the southerly bank <br />and into the ad jacent area. rather than impact the Forward Landfill. The South Fork of <br />South Little john's Creek alignment is also a ve ry flat gradient. 0.0006 feet per foot; <br />therefore . erosion is not a significant concern. <br />Evaporation. The estimated annual evaporation for the site is 78.43 inches based on Pan A <br />evaporation data recorded between 1919 and 1968 at Oakdale Woodward Dam (Station <br />No. BOO 630500, latitude 37°51'28", longitude 120°52'42", Elevation 215 above mean <br />seal level ra msl }), located approximately 13 miles southeast of the site (California <br />Department of Water Resources,_1979). A minimum mean monthly evaporation of 1.14 <br />inches has been calculated for December and January, and a maximum mean monthly <br />evaporation of 14.69 inches has been calculated for July. <br />Wind. During summer periods, winds usually originate from the north end of the San Joaquin <br />Valley and flow in a south-southeasterly direction through the valley and Tehachapi pass . <br />and then into the neighboring Southeastern Desert Air Basin. During winter months . winds <br />occasionally originate from the south end of the valley and flow in a north-northwesterly <br />direction. During winter months . the valley experiences light. variable winds, less than 10 <br />miles per hour (mph). Low wind speeds, combined with low inversion layers in the winter . <br />create a climate conducive to high concentrations of certain air pollutants. <br />The California Air Resources Board (1984) analyzed wind data for the Stockton Metropo l itan <br />Airport weather station for the period from 1964 to 1980. last 1 2 months. The prevailing <br />wind for the Stockton station blows from the west-northwest (45.3 percent of the time ) and <br />the north (15.9 percent of the time). Calm winds occur 6.9 percent of the time. A wind rose <br />(Figure 9±G) developed from the Stockton WB Airport station data provides wind direction <br />information. The mean annual wind speed is 8.2 miles per hour. northwesterly fOF the <br />majority of t he year . During t he winter months (November thru Februa ry) ' .... inds blew <br />predom i nant ly from t he southeast. The mean a nnual wind speed is approxima t ely 9.0 miles <br />per hour . The win d rose shown in Figure 10 prov ides wi nd direct ion information ; it was <br />developed f rom t he Stocl<t on Metropolitan Airport data. <br />Forward Composting Facility SWT Engineering <br />Report of Composting Site Information -May 2014 <br />z:\!Jrojects \all ied waste \forward\resource recovery facility\5 yr perm it rvw 2013·14\rcsi 2014\text\se c 3 · revtr .doc