Patent Number: 051280680
Section: claims

1. A method of treating particulate material contaminated with heavy metal compounds, radioactive compounds, and organics, single and in combination, said method comprising the steps of: washing said particulate material with a first quantity of contaminant mobilizing solution selected from a group consisting of leaching solutions, surfactants and mixtures thereof to mobilize soluble and dispersible contaminants in the liquid phase of said contaminate mobilizing solution;  mechanically separating large particles of a size substantially free of residual contamination from intermediate sized particles, fines, and said contaminant mobilizing solution;  washing the separated large particles with a water based cleaning solution to produce recovered particulate material;  size separating fines from said intermediate sized particles with a countercurrent flow of additional contaminant mobilizing solution to form a waste slurry, said size separating of said fines by countercurrent flow being performed by introducing the intermediate sized particles, fines, and said first quantity of contaminant mobilizing solution into a size separator in a flow with a first flow direction while introducing additional contaminant mobilizing solution in a countercurrent flow with a second flow direction counter to said first flow direction whereby the fines are carried with said counterflow as part of the waste slurry;  attrition abrading the intermediate sized particles from which fines have been removed by said countercurrent flow of contaminant mobilizing solution to dislodge attached fines from their intermediate sized particles;  size separating the dislodged fines from the intermediate sized particles by a countercurrent flow of wash water to form additional waste slurry and effluent of said intermediate sized particles and wash water, said size separating of said dislodged fines by countercurrent flow being performed by introducing the intermediate particles and dislodged fines into a size separator in a flow with a first flow direction while introducing wash water in a countercurrent flow in a second flow direction counter to said first flow direction whereby the dislodged fines are carried with said counterflow as part of the additional waste slurry and effluent; and  dewatering the effluent of intermediate sized particles and wash water to produce additional recovered particulate materials.  washing said particulate material with a contaminant mobilizing solution selected from a group consisting of leaching solutions, surfactants and mixtures thereof to mobilize soluble and dispersible contaminants in the liquid phase of said contaminate mobilizing solution;  mechanically separating large particles of a size substantially free of residual contamination from intermediate sized particles, fines, and said contaminant mobilizing solution;  washing the separated large particles with a water based cleaning solution to produce recovered particulate material;  size separating said fines from said intermediate sized particles by a countercurrent flow of wash water to form a waste slurry and an effluent of intermediate size particles and wash water, said size separating of said fines by counter-current flow being performed by introducing the intermediate particles and fines into a size separator in a flow with a first flow direction while introducing wash water in a countercurrent flow in a second flow direction counter to said first flow direction whereby the dislodged fines are carried with said counterflow as part of the waste slurry and effluent;  density separating heavy metal particles from said effluent of intermediate sized particles and wash water; and  dewatering the effluent of intermediate sized particles and wash water to produce additional recovered particulate materials.  introducing said slurry in a first flow direction into the top of said mineral jig;  introducing a countercurrent flow of fluid in said mineral jig in a second flow direction counter to said first flow direction; and  withdrawing an underflow from the mineral jig at a rate, related to the countercurrent flow of fluid and the introduction of said slurry, which produces an overflow of fluid containing said fines and an underflow containing said larger particles of said particulate material. 2. The method of claim 1 including attrition abrading the intermediate sized particles to initially dislodge attached fines prior to size separating said fines from the intermediate sized particles with the countercurrent flow of said contaminant mobilizing solution. 3. The method of claim 2 including density separating heavy metal compounds from said effluent of intermediate sized particles and wash water by a cross-current flow of wash water prior to dewatering said effluent of intermediate sized particles and wash water. 4. The method of claim 1 including density separating heavy metal compounds from said effluent of intermediate sized particles and wash water prior to dewatering. 5. The method of claim 4 wherein said density separating of heavy metal compounds from the effluent of intermediate sized particles in wash water is effected by a cross-current flow of wash water. 6. The method of claim 5 wherein water removed from said effluent of intermediate sized particles and wash water by dewatering is recycled as said wash water for said size separating with the countercurrent, flow of wash water. 7. The method of claim 1 wherein water removed from said effluent of intermediate sized particles and wash water by dewatering is recycled as said wash water for said size separating with the countercurrent flow of wash water. 8. The method of claim 7 wherein the dewatered intermediate size particles are further dried by evaporation. 9. The method of claim 1 including separating said fines from said contaminant mobilizing solution in said waste slurry and additional waste slurry and recycling said contaminant mobilizing solution. 10. The method of claim 9 including removing organics from the recycled contaminant mobilizing solution. 11. The method of claim 9 including removing radioactive contaminants from said recycled solution. 12. The method of claim 11 including removing organics from said recycled solution. 13. The method of claim 1 wherein large particle greater than about 5 mm in size are mechanically separated from the intermediate sized particles and fines. 14. The method of claim 13 wherein the countercurrent flows of said contaminant mobilizing solution and said wash water are set to remove fines of a size selected to reduce contamination to a predetermined level. 15. The method of claim 14 wherein said countercurrent flows of contaminant mobilizing solution and wash water are selected to separate fined of a size smaller than about 200 microns. 16. The method of claim 15 wherein said countercurrent flows of contaminant mobilizing solution and wash water are selected to separate fined of a size smaller than about 60 microns. 17. The method of claim 1 wherein said separating steps are carried out by operating a mineral jig in a countercurrent flow mode. 18. A method of treating particulate material contaminated with heavy metal compounds, radioactive compounds, and organics, single and in combination, said method comprising the steps of: 19. The method of claim 18 wherein said density separating of heavy metals from the effluent of intermediate sized particles in wash water is effected by a cross-current flow of wash water. 20. The method of claim 18 wherein water removed from said effluent of intermediate sized particles and wash water by dewatering is recycled as said wash water for said size separating with the countercurrent flow of wash water. 21. A method of operating a mineral jig to separate fines from larger particulates in a slurry of particulate material and to simultaneously wash sad particulate material comprising: 22. The method of claim 21 wherein said countercurrent flow is introduced at a rate of about 1 to 8 liters/min and said underflow is withdrawn at a rate of about 1 to 3 liters/min. 23. The method of claim 21 wherein said particulate matter selectively contains soluble and dispersible contaminants and said countercurrent flow is a flow of a contaminant mobilizing solution which mobilizes said soluble and dispersible contaminants and carries them off in the overflow with said fines.