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12066.002.000 <br />San Joaquin County Environmental Health Department <br />November 30, 2018 <br />Mountain House Neighborhood A, Units 3 and 4 <br />Revised January 22, 2019 <br />SOIL GAS CHARACTERIZATION REPORT <br />Page 2 <br />SITE CHARACTERIZATION <br />Soil Gas Sampling <br />Soil gas sampling was conducted in two events: <br />November 20, 2018: 10 soil gas samples at five locations along the petroleum pipeline. <br />January 10, 2019: 3 soil gas samples at three locations at the west area of the petroleum pipeline, <br />approximately 150 feet southwest of the proposed residential lot areas. <br />November 20, 2018 Sampling Event <br />Ten soil gas samples were collected from temporary nested well points at five locations (Figure 2). <br />Samples were collected from a depth of approximately 5 and 10 feet below the ground <br />surface (bgs). The soil gas samples were collected from the temporary probes advanced with a <br />Geoprobe® direct push rig and constructed in general accordance with the Department of Toxic <br />Substances Control (DTSC) Final Advisory Active Soil Gas Investigations (April 2012) and under <br />permit from the San Joaquin County Environmental Health Department. Figure 3 provides the <br />typical nested soil gas well detail. <br />The temporary soil gas wells were constructed with 1h-inch diameter Teflon® tubing equipped <br />with a filter at the base of the tubing. The temporary well installation was performed with a direct <br />push probe rig, which advanced an approximately 3-inch-diameter boring to a depth of 10.5 feet <br />bgs. For each location, the bottom of the well casing was equipped with a filter situated at a depth <br />of 10 feet below the ground surface, centered in the middle of a 1-foot layer of sand. Four feet of <br />hydrated bentonite grout was installed on top of the sand. Then a second filter was placed in the <br />middle of a 1-foot layer of sand and the remaining annular space was filled to the surface with <br />hydrated bentonite grout. <br />Once the installation of the annular seal was complete, the well casings were equipped with a <br />permanent Swagelok® ferrule and nut. The wells were left, allowing for the mandatory two-hour <br />equilibration time to commence. After the two-hour equilibration time elapsed, the sample train <br />was connected to the well tubing by threading the permanent Swagelok® fitting on the well casing <br />onto the manifold. The sample train consisted of a stainless steel twin summa quick-connect <br />manifold with built in flow controller set to 80-180 ml/min. A purge vacuum canister was attached <br />to the manifold connection closest to the well casing and the sample canister was connected to <br />the manifold fitting furthest away from the well casing. An appropriate volume, approximately two <br />liters of soil gas was then purged from each well and the purge valve was closed. Prior to <br />sampling, a leak test was performed to establish if there was a leak during sampling. The leak <br />test consisted of using aerosol 1,1-difluoroethane on a rag placed over the manifold on the sample <br />canister. Soil gas samples were collected by opening the valve on the summa canister provided <br />by the laboratory, while the purge valve is closed. <br />Following sampling, each sample canister was labeled with a unique identification number, <br />sampling time, pre- and post-sample vacuum readings. The sample canisters were submitted <br />under documented chain of custody to Torrent Laboratory, Inc. A State-accredited laboratory in <br />Milpitas, California for analysis.