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A system, formulation and method for producing ceramic vacuum micro spheres utilizing a spray dryer having a top mounted atomizer rotary wheel and a side or bottom mounted dual fluid nozzle, forming microspheres by spraying solution from the top mounted atomizer rotary wheel and simultaneously coati

A system, formulation and method for producing ceramic vacuum micro spheres utilizing a spray dryer having a top mounted atomizer rotary wheel and a side or bottom mounted dual fluid nozzle, forming microspheres by spraying solution from the top mounted atomizer rotary wheel and simultaneously coating the microspheres by spraying solution from the side or bottom mounted dual fluid nozzle, transferring the microspheres to a secondary heating unit, and drying the microspheres, all under vacuum of between 1 to 5 millibars.

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1. A ceramic vacuum microsphere manufacturing process comprising the steps of: preparing a solution of approximately between sixty seven and eighty five percent sodium, lithium or potassium silicate by weight, up to approximately three percent boric acid by weight and between approximately fifteen a

1. A ceramic vacuum microsphere manufacturing process comprising the steps of: preparing a solution of approximately between sixty seven and eighty five percent sodium, lithium or potassium silicate by weight, up to approximately three percent boric acid by weight and between approximately fifteen and thirty percent urea by weight;providing a spray dryer having a heated chamber, a top mounted atomizer rotary wheel and a side or bottom mounted dual fluid nozzle;spraying said solution from the top mounted atomizer rotary wheel to create microspheres and simultaneously coating said microspheres by spraying said solution from said side or bottom mounted dual fluid nozzle, said heated chamber being under vacuum of approximately 1 to 5 millibars and having an inlet temperature of between 650 and 800 degrees F. and an outlet temperature of between 275 and 350 degrees F.;transferring said microspheres to a secondary heating unit and further drying said microspheres under vacuum of approximately 1 to 5 millibars at a temperature between 500 and 1500 degrees F. 2. The process of claim 1, wherein said secondary heating unit is connected to said heating chamber of said spray dryer. 3. The process of claim 2, wherein said secondary heating unit is chosen from the group consisting of a tube furnace and a rotary kiln. 4. The process of claim 1, wherein said step of preparing a solution further comprises adding approximately one to five weight percent of sodium, lithium or potassium methyl siliconate. 5. The process of claim 4, wherein said step of preparing a solution further comprises adding up to 0.5 weight percent of a fluorocarbon surfactant and up to three weight percent of an alkali carbonate. 6. The process of claim 1, further comprising the step of applying a mist of sodium, lithium or potassium methyl siliconate to said microspheres within said secondary heating unit. 7. The process of claim 6, further comprising the step of passing said microspheres back through said spray dryer and recoating said microspheres with said solution prior to transfer of said microspheres to said secondary heating unit. 8. The process of claim 1, further comprising the step of passing said microspheres back through said spray dryer and recoating said microspheres with said solution prior to transfer of said microspheres to said secondary heating unit. 9. The process of claim 1, wherein said step of preparing a solution comprises mixing approximately seventy eight percent sodium, lithium or potassium silicate by weight, approximately three percent boric acid by weight and approximately nineteen percent urea by weight. 10. A ceramic vacuum microsphere manufacturing process comprising the steps of: preparing a solution of approximately between sixty and eighty percent sodium, lithium or potassium silicate by weight, up to approximately two weight percent of a fluorocarbon surfactant, up to approximately five weight percent of an alkali carbonate, between approximately fifteen to twenty five weight percent hydrogen peroxide and up to approximately five percent boric acid by weight;providing a spray dryer having a heated chamber, a top mounted atomizer rotary wheel and a side or bottom mounted dual fluid nozzle;spraying said solution from the top mounted atomizer rotary wheel to create microspheres and simultaneously coating said microspheres by spraying said solution from said side or bottom mounted dual fluid nozzle, said heated chamber being under vacuum and having an inlet temperature of between 650 and 800 degrees F. and an outlet temperature of between 275 and 350 degrees F.;transferring said microspheres to a secondary heating unit and further drying said microspheres under vacuum at a temperature between 500 and 1500 degrees F. 11. The process of claim 10, wherein said secondary heating unit is connected to said heating chamber of said spray dryer. 12. The process of claim 11, wherein said secondary heating unit is chosen from the group consisting of a tube furnace and a rotary kiln. 13. The process of claim 10, further comprising the step of applying a mist of sodium, lithium or potassium methyl siliconate to said microspheres within said secondary heating unit. 14. The process of claim 13, further comprising the step of passing said microspheres back through said spray dryer and recoating said microspheres with said solution prior to transfer of said microspheres to said secondary heating unit. 15. The process of claim 10, further comprising the step of passing said microspheres back through said spray dryer and recoating said microspheres with said solution prior to transfer of said microspheres to said secondary heating unit. 16. The process of claim 10, wherein said step of preparing a solution comprises mixing approximately seventy two percent sodium, lithium or potassium silicate by weight, approximately 0.5 weight percent of a fluorocarbon surfactant, approximately three weight percent of an alkali carbonate, approximately 21.5 weight percent hydrogen peroxide and approximately three percent boric acid by weight.