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SECTION 5 -COMPOSTING AREA <br />• A product sales area located near the finished product storage area. <br />Up to three surface water retention ponds to capture runoff from the active operating areas. <br />The site will be graded to separate runoff from the ASP and receiving area from the rest of the site <br />so that surface water collected from areas other than the ASP pad and receiving area can be used to <br />moisten piles as needed. Leachate and condensate that collect within the aeration system's laterals <br />and ducts will be captured and drained via gravity through polyvinyl chloride piping to one of two <br />leachate manholes. The two leachate manholes will also serve as the "water trap" that is necessary <br />to allow leachate and condensate to drain continuously from the aeration system while it is in <br />operation. The leachate manholes will be equipped with electric pumps and float level sensors that <br />will transfer liquid that collects in the manhole to the retention pond located near the ASP area. <br />5.2 Facility Capacity <br />The facility is designed to accept and process the projected 7,000 tons per year of feedstocks that are <br />anticipated. The facility design also factors in the historical peaking factor based on quarterly data from <br />2013 through 2015 from the existing site. However, the mass of material present at the site at any one <br />time will vary based on the type of equipment used to form and turn the windrows, residence times, <br />and the density and moisture content of the materials being composted. For these reasons, it is more <br />convenient to refer to the volumetric capacity of the various composting systems. The facility will have <br />the following capacities: <br />• The ASP composting system is designed around operators constructing two composting piles per <br />week which have a combined capacity of up to 654 cubic yards (yd 3). At times of the year when <br />feedstock quantities are lower, the composting piles will be built with a lower height. <br />• The capacity of the windrow composting and curing operation is expected to be approximately <br />5,028 yd3. However, this capacity may change (increase or decrease) as a result of changes in turning <br />methods and equipment and changes in windrow spacing. These changes can be accommodated <br />without the need to expand the physical size of the windrow pad. <br />The amount of material stored in the finished product storage area is expected to vary significantly <br />from year to year. Also, amounts will vary within each year based on compost production levels and <br />market demand. The capacity of the area will be based on storage of materials in eight rectangular <br />piles (75 feet by 55 feet). However, this storage capacity will be increased to respond to lagging <br />seasonal or year -over -year market demands by building stockpiles closer together or using an <br />extended pile configuration. <br />5.3 Acceptable Feedstocks <br />The new facility will be designed to process the same materials that the existing facility is permitted to <br />receive and process (Type 1 [vegetative] and Type 2 [manures] feedstocks), which include the following: <br />• Landscaping and yard trimmings <br />• Wood wastes (natural woody debris, including land clearing stumps and brush, and clean, <br />unpainted, and untreated dimensional wood) <br />• Straw and bedding with associated manures (primarily from nearby fairgrounds and small farms) <br />Future addition of pre -consumer food waste may be considered at a later date. <br />The current site experiences seasonal variation of compost material depending on the weather. During <br />the late fall and early winter periods, incoming material contains a higher proportion of brush and tree <br />limbs. <br />5.2 EN1213161143SAC DRAFr- 12/23/16 <br />