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Attached Documents (with brief description): <br /> 1) Geochemical Monitoring during. Remediation of Chlorophenol Contaminated <br /> Soil and Groundwater Using- Microbubble Perozone Technology, LACO <br /> Associates presentation, March 14--17, 2008. <br /> • This.slideshow presentation shows how Perozone injection has been successful <br /> in treating hydrocarbons in deltaicsediments similar to those at the Port <br /> 2} Successful Tight Soil Treatment of a Petroleum Spill with a Pulsed Perozone <br /> Injection System, Kerfoot Technologies, Inc. presentation,. October 16--17, <br /> 2008. <br /> • Though not performed on a site underlain by deltaic sediments, this slideshow <br /> presentation shows how Perozone injection has been successful in treating <br /> gasoline range hydrocarbons in tight soils <br /> 3) 1n Situ Chemical Oxidation Pilot Test-, -Des'ign Criteria and Results for Ozone <br /> and Hydrogen Peroxide Injection; Pavlik anGwinn, date uncertain. <br /> • Documentation of an In Situ Chemical Oxidation Pilot Test using the injection of <br /> ozone and hydrogen peroxide. Conclusions noted that injection rapidly reduced . <br /> i4 gasoline range hydrocarbons. <br /> 4) Coated Ozone. Micro-bubbles Speed Groundwater Cleanup, William Kerfoot, <br /> posted April 6, 2007. <br /> I <br /> General description of peroxide-coated ozone and its application at petroleum- <br /> contaminated sites. <br /> t <br /> 5} C-Sparger System and Perozone, letter. from Florida Department of <br /> Environmental Protection to Mr. William Kerfoot, February 3, 2003. <br /> • Letter from Florida's Department of Environmental Protection approving the use <br />+' perozone as a,viable in situ chemical oxidation process. Addition product and <br /> application information is also included in Enclosure 1 after the letter. <br /> I <br /> I � <br /> i <br /> i <br /> f � <br /> I . <br /> Y <br /> r �I <br /> i <br /> lr <br /> 736.PRI.03 3 Work Plan Addendum <br /> II+ � <br />