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'11"�ABIS <br /> SampWr <br /> • <br /> Total Length 22.25 in <br /> Diameter 3 55 in <br /> Weight 14 50 lb <br /> Total Capacity 750 0 cc <br /> Sample Container Capacity 3 ea 40 0 ml <br /> Materials 321 Stainless Steel <br /> VOf.11.J 111Y.1u 4Y�LJ 1.1 V..11_14.IV�� — �� Iyn <br /> VOCs Organic Salts <br /> NVOCs Inorganic Salts Contaminant species recovery in 4" <br /> LNAPLs Metals diameter wells and larger, in a free-flowing <br /> DNAPLS aquifer with a migratory plume <br /> the KABIS Sampler will recover concentrations and <br /> species which other sampling methods will not The <br /> act of purging the well, in most cases, either dilutes the <br /> sample, or changes its chemical character This <br />® change in most cases provides ambiguous results <br /> Time for first sample (VOCs) on-site 8 mm <br /> Total time (VOCs) on-site (8 wells) 12 hrs <br /> Decontamination std <br /> Sampling Program Savings "' 80 % <br /> - Increased Species Recovery = 48 % <br /> Samples simultaneously into three 40ml VOA vials <br /> Superior in-situ depth-discrete sampling results <br /> Contaminant species recovery in 4"diameter wells <br /> and larger, installed in a stationery aquifer with a <br /> non-moving or very slowly moving plume <br /> ._.��� <br /> The KABIS Sampler by virtue of its sampling .] <br /> method, will not tend to draw into the well, <br /> concentrations or species not resident in or in _"` <br /> close proximity to the well As shown above, y „ <br /> purging a well (even micro-purging) in a <br /> stationery aquifer will skew the sampling results ` <br /> by drawing in species and concentrations which <br />•are not resident either in or around the well <br /> Conversely the following bar graph shows that, <br /> in a well installed in a flowing aquifer, 5'LE„r`C3 rP_(f.\77r, os0 CTME,olo ��v <br />