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2-13 <br /> ♦ A 30-foot layer of material consisting of very stiff to hard silt and lean clay. This <br /> material is moist to wet, with moisture contents between the plastic and liquid limit. <br /> This material has an approximate OCR of 1.7 (CH2M HILL Boring BH-1, approximate <br /> depth of 78 feet). <br /> ♦ Very dense poorly graded sand was observed near the bottom of the CH2M HILL <br /> Boring BH-1, starting at an approximate depth of 100 feet. Sand was also observed <br /> in EMCON's Boring No. 17 to 178 feet, the maximum depth drilled (EMCON, 1972). <br /> Soil type and properties of the materials encountered in the geotechnical investigations <br /> performed by EMCON and InsituTech were generally consistent with the conditions <br /> determined by CH2M HILL described above. In EMCON's subsurface investigation, a <br /> Modified California Sampler (with a 140-pound hammer with a 30-inch drop) was used to <br /> collect samples. Blow counts recorded with the Modified California Sampler typically ranged <br /> from 20 to 60 blows per foot. Unconfined compression tests were performed on silty clay <br /> samples between depths of 3 and 10 feet. The compressive strengths ranged from 1,310 <br /> psf to 5,100 psf for an average of approximately 3,000 psf (Note: the undrained shear <br /> strength is defined as one half of the unconfined compressive strength) (EMCON, 1972). <br /> Shear strengths based on InsituTech's CPT data (performed to a maximum depth of 50 feet) <br /> typically ranged from approximately 4,000 psf to over 10,000 psf. Based on these CPT logs, <br /> a lower bound shear strength value of 2,000 psf was used in InsituTech's stability evaluation <br /> for WMU E (InsituTech, 1987). Table 2 summarizes the results of the subsurface soil <br /> investigations for the six generalized zones mentioned above. <br /> 2.2 Monitoring <br /> Sampling. Forward will analyze at least one composite sample for every 5,000 cubic yards <br /> of compost to be analyzed at a Department of Health Services approved laboratory. <br /> Compost product, which exceeds the maximum metal concentrations or maximum <br /> acceptable pathogen concentrations, shall be designated by the appropriate State or <br /> Federal jurisdiction for another use, including disposal, additional processing, ADCs or other <br /> uses. <br /> A composite sample will consist of 12 mixed samples as collected by the Operations <br /> Manager. The Operations Manager uses a shovel to extract each sample. The 12 samples <br /> will be of equal volume. Four samples will be extracted from around and on top of the <br /> compost pile at different cross-sections as follows: <br /> ♦ One-half the horizontal width of the pile <br /> ♦ One-fourth the horizontal width of the pile <br /> ♦ One-eighth the horizontal width of the pile <br /> Results from sampling of the finished product should be sent directly to the LEA from the <br /> certified laboratory. <br /> Metal Concentrations. The maximum acceptable metal concentrations are presented in <br /> Table 3. Tests for metal concentration will be conducted at a certified lab: <br /> Pathogen Reduction. In accordance with 14 CCR, Section 17868.3 (Pathogen Reduction), <br /> the density of fecal coliform in the stabilized compost, that is or has at one time been active <br /> compost, will be less than 1,000 most probable number (MPN) per gram of total solids on a <br /> Forward Composting Facility SWT Engineering <br /> Report of Composting Site Information-November 2014 <br /> z:\prcjects\allied waste\forward\resource recovery facility\5 yr permit rvw 2013-14\resi 2014\text\9-nov 2014 track changes\sec 2.doc <br />