Claims
- 1. A method for converting polychlorinated biphenyl oil into a resource by a chemical decomposition treatment, a pelletizing treatment and a thermal decomposition treatment,
wherein the chemical decomposition treatment decomposes polychlorinated biphenyl oil to powder including a metal salt by applying a decomposition action of CaO to said polychlorinated biphenyl oil and acting far-infrared rays emitted by quartz porphyry; the pelletizing treatment solidifies powder, which is generated by said chemical decomposition treatment, into pellets; said thermal decomposition treatment thermally melts said pellets, which are generated by said pelletizing treatment, and glass cullet at a temperature above the thermal decomposition temperature of said polychlorinated biphenyl, and integrates said pellets and glass cullet as slag, wherein the molten integrated slag is cooled to be made into a solid to be reused as resources.
- 2. The method for converting polychlorinated biphenyl oil into a resource as set forth in claim 1, wherein said chemical decomposition treatment includes a process of decomposing polychlorinated biphenyl oil by causing heat due to an exothermic reaction of CaO to act onto quartz porphyry and causing far-infrared rays to be irradiated from quartz porphyry under a condition that it is heated above 200° C.
- 3. The method for converting polychlorinated biphenyl oil into a resource as set forth in claim 1, wherein in said chemical decomposition treatment, minus ions irradiated from quartz porphyry are acted onto polychlorinated biphenyl oil, and said polychlorinated biphenyl oil is further decomposed by its reduction actions.
- 4. The method for converting polychlorinated biphenyl oil into a resource as set forth in claim 1, wherein said thermal decomposition treatment thermally decomposes polychlorinated biphenyl oil constituents possibly remaining in powder that is generated by said chemical decomposition treatment.
- 5. The method for converting polychlorinated biphenyl oil into a resource as set forth in claim 1, wherein said thermal decomposition treatment is carried out in a melting furnace with coke as a fuel, and pellets that are produced by pelletizing treatment also serve to adjust the degree of basicity for loading into said melting furnace.
- 6. The method for converting polychlorinated biphenyl oil into a resource, including chemical decomposition treatment, pelletizing treatment, and thermal decomposition treatment,
wherein said chemical decomposition treatment chemically converts said polychlorinated biphenyl oil into powder containing a metal salt and prevents the working environment from being contaminated by said polychlorinated biphenyl oil during said thermal decomposition treatment, said pelletizing treatment works the powder produced by said chemical decomposition treatment into pellets as pretreatment of the thermal decomposition treatment, in order to prevent the powder from blowing away and facilitates its handling during the thermal decomposition treatment, and said thermal decomposition treatment loads the pellets obtained by the pelletizing treatment together with glass cullet into a melting furnace with coke as the fuel and both are melted in said melting furnace at a temperature above the thermal decomposition temperature of the polychlorinated biphenyl oil, so that said pellets are melted and integrated with the glass to obtain slag which is then cooled for reuse as solid substances.
- 7. A decomposing agent for polychlorinated biphenyl oil, including calcium oxide whose surface is coated with a vegetable oil and quartz porphyry powder.
- 8. The method for converting polychlorinated biphenyl oil into a resource as set forth in claim 1, wherein said slag obtained by said thermal decomposition treatment is a radiator of far-infrared rays.
CROSS-REFERENCE TO RELATED APPLICATION
[0001] This is a CIP application of Ser. No, 09/517,446 filed on Mar. 2, 2000.
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
09517446 |
Mar 2000 |
US |
Child |
09948587 |
Sep 2001 |
US |