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F_ ORC TECHNICAL BULLETIN # V.2 <br /> Oxygen Release Compound,ORC® <br /> M Uses in the Remediation of <br /> Chlorinated Hydrocarbons <br /> Chlorinated hydrocarbons, such as PCE and TCE, are among the most recalcitrant environmental <br /> contaminants Degradation mechanisms for these compounds is complex While there is some evidence <br /> of aerobic breakdown, in most situations the predominant metabolic pathways are anaerobic AIso,there <br /> are dual-phase requirements for complete remediation to dechlonnated endpoints- such that the process <br /> is initiated under anaerobic conditions and completed in the presence of oxygen ORC can be used at <br /> the various oxygen-dependent stages In some cases, oxygen is needed to specifically inhibit certain <br /> reactions - such as the formation of vinyl chloride - a degradation product that is far more dangerous <br /> than its source compounds. The issue arses when sites are capped with clay and the resultant anaerobic <br /> conditions can promote the generation of vinyl chloride ORC as a preventative treatment may be <br /> appropriate at certain sites <br /> One of the most promising applications for ORC is in the support of various co-metabolic processes In <br /> co-metabolism, certain enzymes produced and extruded by microorganisms, degrade chlorinated <br /> hydrocarbons Unfortunately, some of the chlorinated hydrocarbon degradation products, such as <br /> Wtides, are toxic to the microorganisms and they must be constantly be "stoked" with substrates to <br /> ain populations that allow the process to continue <br /> Recent advances in microbial selection and strain development have opened up the possibilities for <br /> bioremediation via these more rapid and efficient co-metabolic processes Among these are the <br /> development of microorganisms that elicit the degratory enzymes more easily and in greater quantity <br /> Also, more importantly,there is promise that epoxide resistant forms may be able to thrive rather than <br /> succumb in the presence of these toxic by-products. <br /> Co-metabolism may be the reason reductions in PCE and TCE were observed with ORC in laboratory <br /> experiments carred out by Retec. The objective of the experiment was to see if ORC could inhibit <br /> vinyl chloride formation. In the course of this study the levels of TCE and PCE introduced into the <br /> culture environment were both reduced by two thirds in two months - relative to the control <br /> Furthermore, the authors of the study did not rule out direct chemical oxidation as a full or partial <br /> mechanism for the observed results. <br /> RIMMENE ---_---_-----------------—---------—------------------------------------- <br /> ------ <br /> B6emediation Products 27130A Paseo Espada, Ste 1407, San Juan Capistrano, CA 92675 <br /> Phone 714-443-3136 Fax 714-443-3140 <br />