Patent Number: 053002580
Section: claims

1. A method of separating a mixture of contaminated resin particles from soil particles comprising; a) fluidizing said mixture at a fluid velocity sufficient to entrain substantially all of said resin particles and a first portion of said soil particles, said entrained first portion of said soil particles being of an average particle size smaller than the average particle size of said contaminated resin particles;  b) separating and collecting a second portion of said soil particles from said entrained contaminated resin particles and said entrained first portion of said soil particles, said second portion not being entrained in said fluidized mixture; and  c) separating said entrained first portion of said soil particles from said entrained contaminated resin particles with particle separation means adapted to collect particles corresponding to the average particle size of said contaminated resin particles.  a) fluidizing a mixture of soil particles, and contaminated resin particles having a specific gravity lower than the soil particles, in a fluid and at a fluid velocity sufficient to entrain substantially all of said contaminated resin particles and a first, fines portion of said soil particles, said entrained first portion of said soil particles being of an average particle size smaller than the average particle size of said contaminated resin particles, where, after fluidization said resin particles remain contaminated; and then  b) separating and collecting a second portion of said soil particles, comprising a majority of said soil, from said entrained contaminated resin particles and said entrained first, fines portion of said soil particles, said second portion not being entrained in said fluidized mixture; and then  c) separating said entrained first, fine portion of said soil particles from said entrained contaminated resin particles with particle separation means adapted to collect particles corresponding to the average particle size of said contaminated resin particles. 2. The method of claim 1 wherein said second portion of said soil particles are separated and collected by settling. 3. The method of claim 1 wherein said first portion of said soil comprises fines, said second portion of said soil comprises the majority of said soil, said particle separation means comprises a screen adapted to collect said contaminated resin particles and allow said fines to pass therethrough, and said fluidizing is achieved with a mineral jig adapted to collect said second portion of said soil in the bottom of said jig and said jig is further adapted to allow said entrained contaminated resin particles and fines to pass in an overflow stream from said mineral jig to said screen. 4. The method of claim 1 wherein said fluidized mixture is passed through a bed of oversized soil particles in order to assist said separation of said contaminated resin particles and said first portion of said soil from said second portion of said soil, said oversized soil particles having an average particle size tending to provide a tortuous path which inhibits settlement of said contaminated resin particles, said oversized soil particles further tending to inhibit channeling of said contaminated resin particles in said fluidized mixture. 5. The method of claim 3 wherein said mineral jig operates at an upflow rate of less than about 5 GPM/ft.sup.2. 6. The method of claim 5 wherein said mineral jig operates at an upflow rate of greater than about 1.6 GPM/ft.sup.2. 7. The method of claim 1 wherein said contaminated resin particles comprise an ion exchange resin. 8. The method of claim 7 wherein said contaminated resin particles are contaminated with heavy metals or organics. 9. The method of claim 8 wherein said contaminated resin particles are contaminated with uranium. 10. The method of claim 1 wherein said mixture of contaminated resin and soil particles is prepared by first mixing uncontaminated resin with contaminated soil to remove contaminants adherent to said resin from said contaminated soil. 11. The method of claim 10 wherein said contaminants are selected from the group heavy metals, radioactive contaminants and organic contaminants. 12. The method of claim 11 wherein said uncontaminated resin is a cation exchange resins. 13. The method of claim 11 wherein said uncontaminated resin is an anion exchange resin. 14. The method of claim 1, wherein the contaminated resin particles have a specific gravity lower than that of the soil, the fluid velocity in step a) exceeds the terminal velocity of the resin and the soil fines particles, the fluidizing is in a fluid in a mineral jig having long pulse strokes, giving the particle more time to settle before the next pulse and having a minimum bed depth, water is the fluid, and after fluidization said resin particles remain contaminated. 15. A method of separating a mixture of contaminated resin particles from soil particles comprising: 16. The method of claim 15 wherein said fluidized mixture is passed through a bed of oversized soil particles in order to assist said separation of said contaminated resin particles and said first portion of said soil from said second portion of said soil, said oversized soil particles having an average particle size tending to provide a tortuous path which inhibits settlement of said contaminated resin particles, said oversized soil particles further tending to inhibit channeling of said contaminated resin particles in said fluidized mixture. 17. The method of claim 15 wherein said mixture of contaminated resin and soil particles is prepared by first mixing uncontaminated resin with contaminated soil to remove contaminants adherent to said resin from said contaminated soil. 18. The method of claim 15 wherein the fluid velocity in step a) exceeds the terminal velocity of the resin and soil fines particles, the fluidizing is in a mineral jig having long pulse strokes, giving the particles more time to settle before the next pulse and containing a minimum bed depth, and water is the fluid.