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2-12 <br /> outside diameter split-spoon sampler, driven as described for the Standard Penetration Test <br /> (SPT), ASTM Standard D1586. <br /> Soil recovered during the drilling program was visually classified by a CH2M HILL engineer in <br /> general accordance with ASTM D2487 and D2488. The soil names on the boring logs <br /> reflect these ASTM standards. Pocket penetrometer tests were conducted on most cohesive <br /> samples. Samples were then prepared for storage by placing representative portions in <br /> plastic bags or by sealing the sampling tube with plastic cap and tape. Sample descriptions, <br /> blow counts recorded during the SPT, and other relevant information were recorded on the <br /> soil boring logs. <br /> Selected soil samples obtained by CH2M HILL from its subsurface investigation were tested <br /> in the laboratory by Harding Lawson Associates (HLA) of Concord, California. Index tests <br /> performed by HLA included determining the liquid limit, plastic limit, and moisture content of <br /> the selected samples. Engineering property tests performed included Unconsolidated <br /> Undrained (UU) triaxial compression and consolidation tests. Detailed results of the tests <br /> performed are included in the Stability and Settlement Analysis of that report. <br /> The soil encountered during the CH2M HILL field investigation generally consists of <br /> interbedded layers of sand, silt, and lean clay. The cohesive materials are generally of very <br /> stiff to hard consistency. The cohesionless materials can be characterized as dense to very <br /> dense. The soil deposits at the site were found to be heterogeneous and laterally and <br /> vertically discontinuous. Based on the four soil borings performed for this geotechnical <br /> exploration, the subsurface soils at the site can be divided into six general layers of interest. <br /> It should be noted that the generalized subsurface profile described below has been greatly <br /> simplified for the purpose of this report. Beginning at the existing ground surface <br /> (approximately elevation 39 feet MSL), these six layers are as follows: <br /> ♦ A 10- to 15-foot layer of light brown material ranging from lean clay to silt and silty <br /> clay. This layer is dry and very stiff to hard in consistency, with moisture contents <br /> typically at or below the plastic limit. A UU triaxial compression test performed on a <br /> sample at a depth of 15 feet in CH2M HILL Boring BH-4, which indicated an <br /> undrained shear strength of 5,145 pounds per square foot (psf). SPT blow-counts in <br /> this layer are typically greater than 50. <br /> ♦ A 16-to 20-foot layer of material ranging from silty sand to clayey sand. This layer is <br /> dry to moist and typically dense to very dense. Within this layer, a 5-foot zone of very <br /> stiff lean clay (UU shear strength of 2,262 psf) was encountered in Boring BH-2 at an <br /> approximate depth of 19 feet. This layer was not encountered in other borings and <br /> is believed to be discontinuous. <br /> ♦ A 5- to 10-foot layer of very stiff yellowish-brown lean clay. This material is moist, <br /> with moisture contents between the plastic and liquid limits. A consolidation test <br /> indicates that this material is consolidated to approximately three times the effective <br /> overburden stress overconsolidation ratio (OCR) of 3. The OCR is the ratio of the <br /> maximum effective stress the soil has been subjected to in the past <br /> (preconsolidation pressure) to the existing effective stress in the soil. A UU triaxial <br /> compression test at an approximate depth of 34 feet in CH2M HILL Boring BH-1 <br /> indicated a shear strength of 2,286 psf. <br /> Forward Composting Facility SWT Engineering <br /> Report of Composting Site Information-November 2014 <br /> z:\projects\allied waste\forward\resource recovery facility\5 yr permit rvw 2013-14\resi 2014\tent\9-nov 2014 track changes\sec 2.doc <br />