Patent Number: 056132441
Section: claims

1. A process for treating liquid wastes comprising: mixing finely divided dry solid glass-forming minerals and reductant(s);  forming the mixture with water into pellet, brick, briquette, plate, extrudate, or agglomerate by conventional methods including mixing, rolling, compacting, extruding, agglomerating, or other pelletizing technique;  heating the resulting substrate in the temperature range 50.degree. to 120.degree. C. to remove free moisture;  allowing absorption of the liquid waste to occur by the substrate;  drying the loaded substrate in the temperature range 50.degree. to 120.degree. C. to remove free moisture;  heating the dry intermediate product to the temperature range 150.degree. C. to 450.degree. C. in order to initiate and complete reaction between  nitrogenous species in the liquid waste and any reductant; and  heating the denitrified material by any means to cause melting.  mixing finely divided dry solid glass-forming minerals and reductant(s) with liquid waste;  forming the resultant thick paste or slurry into pellet, brick, briquette, plate, extrudate, or agglomerate by conventional methods including mixing, rolling, compacting, extruding, agglomerating, or other pelletizing technique;  heating the resulting substrate to the temperature range 50.degree. to 120.degree. C. to remove free moisture;  heating the dry intermediate product to the temperature range 150.degree. C. to 450.degree. C. in order to initiate and complete reaction between nitrogenous species in the liquid waste and any reductant; and  heating the denitrified material by any means to cause melting.  mixing finely divided dry solid glass-forming minerals;  forming the mixture with water into pellet, brick, briquette, plate, extrudate, or agglomerate by conventional methods including mixing, rolling, compacting, extruding, agglomerating, or other pelletizing technique;  heating the resulting shape in the temperature range 50.degree. to 120.degree. C. to remove free moisture;  indurating (sintering) the resulting substrate to prepare a physically strong substrate;  adding any requisite reductant to the liquid waste, as determined by the appropriate chemical reaction;  allowing absorption of the solution of liquid waste and reductant to occur by the substrate;  drying the loaded substrate in the temperature range 50.degree. to 120.degree. C. to remove free moisture;  heating the dry intermediate product to the temperature range 150.degree. C. to 450.degree. C. in order to initiate and complete reaction between nitrogenous species in the liquid waste and any reductant; and  heating the denitrified material by any means to cause melting. 2. The method of claim 1, wherein the liquid waste is hazardous. 3. The method of claim 1, wherein the composition of glass-forming minerals and reductants is 0 to 20 percent boric acid, 0 to 10 percent alumina, 0 to 20 percent southern bentonite, 25 to 75 percent diatomite, 0 to 25 percent Micro-Cel (synthetic calcium silicate by Celite Corp.), 0 to 25 percent silica, 0 to 15 percent sugar, and 0 to 10 percent activated carbon. 4. A method of claim 3 wherein the preferred composition of glass forming minerals and reductants is 10.15 percent boric acid, 5.21 percent Bayer alumina, 3.42 percent southern bentonite, 48.21 percent diatomite, 17.45 percent Micro-Cel, 9.38 percent minus 200 mesh silica, 3.19 percent powdered sugar, and 2.99 percent activated carbon. 5. A method of claim 1, which further comprises an additional step chosen from the group consisting of: post melting thermal treatment by quenching in water or other liquid; casting onto cooled substrate; programmed cooling; soaking at a temperature below the melting temperature; or reheating of programmatically cooled material. 6. A method to treat liquid waste comprising: 7. The method of claim 6, wherein the liquid is hazardous. 8. A process for treating liquid wastes comprising: 9. The method of claim 8, wherein the liquid waste is hazardous.