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ON <br /> M <br /> r <br /> d <br />�r <br /> ATTACHMENT 2 <br /> WATER TABLE AND HYOROCARSON MONITOR WELL MEASUREMENTS <br /> The measurements are made with a transparent plastic bailer-type sampler <br /> suspended on a fiberglass measuring tape. A ball check valve in. the <br /> bottom of the bailer allows a sample showing the product thickness to be <br /> withdrawn from the well. Figure A illustrates the measurement process. <br /> The measuring tape is attached to the lower end of the bailer and passes <br /> up through the center of the body of the bailer. This arrangement <br /> allows direct readings from the tape, where it passes through the top of <br /> the product layer and at the product/water interface. The bailer is <br /> lowered into the well so that roughly 80 percent of the bailer body is <br /> below the top of the liquid surface. The'length of measuring tape in <br /> the well indicates the depth of the sampler and is recorded as the "Tape <br /> Ref.," as is shown in Table A. The bailer is then pulled back to the <br /> surface, where the length of measuring tape extending below the product <br /> surface is read and recorded as "Tape Read.," under t~e heading "Product <br /> Readings" in Table A. Similarly, the length of tape below the product/ <br /> water interface is recorded as the "Tape Read." under the heading "Water <br /> Readings" in Tab:e A. If the product layer is thicker than the length <br /> of the bailer, then a second deeper measurement is made until the pro- <br /> duct/grater interface is found. Under these circumstance!„ a deeper tape <br /> reference is shown for the water measurements than the product measure- <br /> ments. <br /> The depth to water <br /> p and depth to product are calculated from the table <br /> readings and shown in the fourth and seventh columns in Table A. The <br /> datum elevation is the reference elevation for the top of the casing on <br /> the well where the tape reference ,was noted. The last four columns show <br /> the calculated values for product thickness, Water Elevation, Piezo- <br /> metric Elevation, and the Product Elevation. The product thickness is <br /> the difference between the depth to water and the depth to product. The <br /> water elevation is the datum elevation less the depth to water. If <br /> product is present, the piezometric surface will be different than <br /> either the water or product . elevation. The piezometric surface is <br /> determined for gasoline plumes by multiplying the product thickness by <br /> 0.8 and adding the result to the water elevation. The density of gaso- <br /> line is approximately 0.8, and this calculation corrects for the differ- <br /> ence in density and provides a value that would be the water table <br /> surface if no gasoline were present. The product elevation is deter- <br /> mined by subtracting the depth to product from the datum elevation, <br /> rw <br /> ,w <br />