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05 May 1997 <br /> AGE-NC Protect No 95-0173 <br />' Page 13 of 29 <br />' and disposal of spent carbon <br /> Thermal oxidation systems destroy hydrocarbons by open-flame combustion Natural gas is <br /> commonly used as supplemental fuel, heating the extracted vapor stream to a combustion <br /> temperature of approximately 1400°F Relative to internal combustion systems, these systems may <br /> be slightly more expensive to purchase and install,however,they can operate at higher air flow rates, <br />' and therefore remediate sites at a faster rate For this system to be effective, hydrocarbon <br /> concentrations should range from 5,000 ppmv to 30,000 ppmv They also operate at much lower <br /> noise levels than internal combustion systems <br /> Catalytic oxidation units provide another option for treating vadose-zone contamination,particularly <br /> Yt p p <br /> after other extraction systems have reached their effective limits due to lowered hydrocarbon <br />' concentrations These systems operate at temperatures of approximately 700°F, requiring less <br /> supplemental fuel than either thermal oxidizers or internal combustion engines Other requirements <br />' and limitations are similar to those for internal-combustion and thermal oxidizer systems <br /> 7 1 2 Required Soil Conditions <br /> Operation of the blower in a vapor extraction system creates an induced vacuum in the subsurface, <br />' generating vapor flow towards the area of lowered air pressure (the extraction point)through the soil <br /> pore spaces The efficiency of this process is proportional to soil porosity and intrinsic permeability <br /> Intrinsic permeability is the measure of the ability of soils to transmit fluids, porosity is the <br /> percentage of soil that is void of material A high moisture content in soils can reduce the <br /> effectiveness of SVE by restricting the flow of air through soil pores Generally, coarser grained soils <br /> (1 e , sands) are the desired material for a SVE technology because coarser grained soils have a <br /> greater intrinsic permeability than finer grained soils (i e , clays) <br />' 7 1 3 Monitoring Activities <br /> Monitoring of vapor extraction systems involves weekly measurement of vapor concentrations at the <br /> ,"let to tl•,n .a—r —t—n „n,t anr'1 rLPrtin��r CPr yI1nP anri ienalr C��gtemc can he Pmll_Jr with ?i1 <br /> 111 L LV LA 14 L14JL1 UbkAVA1 L1111L 1.1111.1 FJ V, — A— Wi1.a iJ , - �'r- — <br /> automatic telecommunication system to alert the operator of system malfunction or failure Vapor <br /> samples should be collected monthly for laboratory analysis to monitor the efficiency of the <br /> remediation program When the concentrations of extracted vapor have decreased and stabilized after <br /> anpeivrrnAnll,A tyr-nllPrt rnd ,Pnin1P1, fhr quantitative <br /> N �w Ln1u lu V1 - ---- '___ <br />' analysis in the laboratory to document the degree of cleanup obtained <br /> 1 <br /> Advanced GeoEnviron mental,Inc <br />