System and method for concentrating rare earth elements from coal byproducts/slag

What is claimed is: 1. A method for concentrating rare earth elements (REEs) from a coal byproduct, comprising: mixing the coal byproduct with aluminum phosphate alone or in combination with sulfur used as an additives, forming coal byproduct with additive(s); heating the coal byproduct with additive(s) in air for a period of at least 3 minutes at a temperature above a liquid starting temperature of the coal byproduct, forming a molten coal byproduct; cooling the molten coal byproduct at a rate slower than critical glass transition cooling rate of molten coal byproduct with additive(s), forming REE product; heating the molten coal byproduct with additive(s) above the liquid starting temperature of the coal byproduct after REE product is formed; and cooling the coal byproduct with additives at a rate faster than the critical glass transition cooling rate of the molten coal byproduct. 2. The method of claim 1 wherein the sum of the number of moles of phosphorous in the aluminum phosphate additive N(P additive ) plus the number of moles of phosphorus in the coal byproduct input N(P input ) is greater than or equal to the number of moles of phosphorous in the REE product N(REE product ) such that N(P additive )+N(P input ) N(REE product ). 3. The method of claim 1 wherein the concentration of aluminum of the of the coal byproduct plus the concentration of aluminum of the aluminum phosphate additive C(Al input+additive ) is greater or equal to the concentration of aluminum of the molten portion of the coal byproduct plus the concentration of aluminum of the aluminum phosphate additive C(Al molten portion of input+additive ) at the melting temperature of the coal byproduct such that C(Al input+additive )>C(Al molten portion of input+additive ) at melting temperature of the coal byproduct. 4. The method of claim 1 wherein mixing the coal byproduct with the additive causes saturation of crystalline phases in a molten phase at high temperatures. 5. The method of claim 1 wherein heating the coal byproduct above the liquid state starting temperature of the coal byproduct dissolves unwanted solids other than a REE monazite. 6. The method of claim 1 wherein cooling the coal byproduct at a rate faster that than the critical glass transition cooling rate of the melt minimizes forming unwanted solid other than a REE monazite. 7. A method for concentrating rare earth elements (REEs) from a coal byproduct, comprising: mixing the coal byproduct with aluminum phosphate alone or in combination with sulfur used as an additive and causing the formation of crystalline phases in a molten phase at high temperature, forming coal byproduct with additive(s); heating the coal byproduct with additives in air for a period of at least 3 minutes at a temperature above a liquid starting temperature of the coal byproduct with additives, forming a molten coal byproduct; cooling the molten coal byproduct at a rate slower than critical glass transition cooling rate of the molten coal byproduct, forming REE product; optionally heating the coal byproduct with additives above the liquid starting temperature of the molten coal byproduct after REE phosphate product is formed; and cooling the molten coal byproduct with additives at a rate faster than the critical glass transition cooling rate of the molten coal byproduct. 8. The method of claim 7 wherein the sum of the number of moles of phosphorous in the aluminum phosphate additive N(P additive ) plus the number of moles of phosphorus in the coal byproduct N(P input ) is greater than or equal to the number of moles of phosphorous in the REE phosphate product N(REE product ) such that N(P additive )+N(P input ) N(REE product ). 9. The method of claim 7 wherein the concentration of aluminum of the of the coal byproduct plus the concentration of aluminum of the aluminum phosphate additive C(Al input+additive ) is greater or equal to the concentration of aluminum of the molten portion of the coal byproduct plus the concentration of aluminum of the aluminum phosphate additive C(Al molten portion of input+additive ) at the melting temperature of the coal byproduct such that C(Al input+additive )>C(Al molten portion of input+additive ) at melting temperature of the coal byproduct input. 10. A method for concentrating rare earth elements (REEs) from a coal byproduct, comprising: mixing the coal byproduct with aluminum phosphate alone or in combination with an additive selected from the group consisting of sulfide and chloride, forming coal byproduct with additives; heating the coal byproduct with additives in air for a period of at least 3 minutes at a temperature above a liquid starting temperature of the coal byproduct, forming a molten coal byproduct; cooling the molten coal byproduct at a rate slower than critical glass transition cooling rate of a molten coal byproduct with additives, forming REE product; heating the molten coal byproduct with additives above the liquid starting temperature of the coal byproduct after REE product is formed; and cooling the molten coal byproduct with additives at a rate faster than the critical glass transition cooling rate of the molten coal byproduct.