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11. Containers of 110 gallons or less capacity which a t constructed of wood,paper,cardboard,fabric or any othe rlar ahsorptive material,which have been emptied <br /> as <br /> specified In Title 40 of the Code of Federal Regulations,Section 261.7 or inner liners removed From empty containers that once held hazardous waste or hazardous <br /> material <br /> and which are not excluded from regulation may be treated by the following technologies provided the treated containers and rinseate are managed in compliance with <br /> applicable requirements. <br /> ❑ a. Rinsing with a suitable liquid capable of dissolving or removing the hazardous constituents which the container held. <br /> ❑ b. Physical processes such as crushing,shredding,grinding or puncturing,that change only the physical properties of the container or inner liner,provided the container or inner <br /> liner is first rinsed and the rinseate is removed from the container or inner liner. <br /> 12. Multi-component resins may be treated by the following process: <br /> ❑ a. Mixing the resin components in accordance with the manufacturer's instructions. <br /> 13. A waste stream technology combination certified by the Department pursuant to Section 25200.1.5 of the Health and Safety Code as appropriate for authorization under <br /> Permit by Rule. <br /> Certified Technology Number <br /> 14. Aqueous wastes generated by rinsing products and fixtures holding products that were processed in cyanide containing solutions may be treated by the <br /> following technologies: <br /> ❑ Oxidation by addition of hypochlorite <br /> ❑ Oxidation by addition of peroxide or ozone,with or without the use of ultraviolet light <br /> ❑ Alkaline chlorination <br /> ❑ Electrochemical oxidation <br /> ❑ Ion exchange <br /> ❑ Reverse osmosis <br /> 1S. Aqueous wastes generated by reverse osmosis or the regeneration of demineralizer(ion exchange)columns that were used for recycling of wastewaters at facilities that <br /> maintain zero discharge of wastewaters derived from the treatment of cyanide-containing aqueous waste <br /> ❑ Oxidation by addition of hypochlorite <br /> ❑ Oxidation by addition of peroxide or ozone,with or without the use of ultraviolet light <br /> ❑ Alkaline chlorination <br /> ❑ Electrochemical oxidation <br /> ❑ Ion exchange <br /> ❑ Reverse osmosis <br /> 16. Rinsate from rinsing equipment used to transfer aqueous solutions containing cyanides such as containers,pumps,and hoses may be treated by the <br /> following technologies: <br /> ❑ Oxidation by addition of hypochlorite <br /> ❑ Oxidation by addition of peroxide or ozone,with or without the use of ultraviolet tight <br /> ❑ Alkaline chlorination <br /> ❑ Electrochemical oxidation <br /> ❑ Ion exchange <br /> ❑ Reverse osmosis <br /> I7. Aqueous wastes generated by the following onsite recycling activities 1)Rinsing spent anode bags prior to onsite reuse;or 2)Rinsing empty containers prior to onsite reuse <br /> may be treated by the following technologies: <br /> ❑ Oxidation by addition of hypochlorite <br /> ❑ Oxidation by addition of peroxide or ozone,with or without the use of ultraviolet light <br /> ❑ Alkaline chlorination <br /> ❑ Electrochemical oxidation <br /> ❑ Ion exchange <br /> ❑ Reverse osmosis <br /> 18. Aqueous wastes generated by onsite laboratories conducting analyses and testing may be treated by the following technologies: <br /> ❑ Oxidation by addition of hypochlorite <br /> ❑ Oxidation by addition of peroxide or ozone,with or without the use of ultraviolet light <br /> ❑ Alkaline chlorination <br /> ❑ Electrochemical oxidation <br /> ❑ Ion exchange <br /> ❑ Reverse osmosis <br /> 19. Process solutions containing cyanides with recoverable amounts of metal may be treated by the following technology: <br /> ❑ Electrowirtning to recover metals prior to further treatment,including destruction of incidental amounts of cyanide by electrochemical oxidation resulting from the electrowinning <br /> process <br /> 20. Process solutions containing cyanides added slowly to a rinse tank at a level that never exceeds 5000 milligrams per liter cyanide in the rinse tank may be treated by the <br /> Following technologies: <br /> ❑ Oxidation by addition of hypochlorite <br /> ❑ Oxidation by addition of peroxide or ozone,with or without the use of ultraviolet light <br /> ❑ Alkaline chlorination <br /> ❑ Electrochemical oxidation <br /> ❑ Ion exchange <br /> ❑ Reverse osteosis <br /> Rev.UPCF(08!08) <br />