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mob= = M M M MW M M M M M M <br /> In-situChemical Oxidation <br /> Ozone and Hydrogen Peroxide Injection <br /> Istep I—Duration 20 mmutes <br /> Injection Ixy ecton Point <br /> The system is scall pulsed t0 selutien 2 s a 5 6 s 9 la <br /> y typically Y p Ozone 1 1 1 3 <br /> different injection wells to optimize the Hydrogen i i 1 <br /> performance of the injection system Peroxide <br /> - Using ozone/oxygen infection at low <br /> Step 2—Duration 10 minutes <br /> flow rates and high concentrations <br /> Injection Itgection Point <br /> - Using ozone/oxygen injection at high Solution F23 4 6 7 s 9 <br /> Ozone1flow rates and moderate concentrations OzAr <br /> -Usin Hydrogen Peroxide with and Hydrogen 1 1 <br /> gPeroxide <br /> without simultaneous ozone/oxygen Step 3—Duration 20 minutes <br /> infection <br /> Injection injection Point <br /> - Using oxygen or atmospheric air solution 1 2 3 4 5 6 7 $ 9 10 <br /> Ozone 1 1 1 <br /> injection Air 1 t <br /> - The system control panel and valve Perdroge <br /> og den I <br /> 1 1 1 <br /> configuration allows the system to be <br /> pulsed continuously, using different <br /> infection scenarios and infection <br /> locations. : <br /> PPLIED PROCESS TECHNOLOGY, INC. <br />