Claims
- 1. A process for preparing dicalcium phosphate from beneficiated or unbeneficiated phosphate ore or mixtures thereof by use of sulfur dioxide, water, and an organic carbonyl compound, which comprises the steps of:
- 1. mixing said phosphate ore with a mixture of sulfur dioxide, water, and organic carbonyl compound while maintaining the temperature of the resulting reaction slurry below 50.degree. C. for a period of time from about 0.5 to about 10 hours;
- 2. separating the solids from the liquid in said reaction slurry from step 1 supra;
- 3. washing said solids from step 2 supra with a wash mixture comprising sulfur dioxide, water, and organic carbonyl compound, said organic carbonyl compound selected from the group consisting of aldehydes, methyl alkyl ketones, cycloketones, and mixtures thereof to recover phosphate values;
- 4. recycling phosphate containing wash effluent from step 3 supra to step 1 supra;
- 5. heating washed solids from step 3 supra to recover organic carbonyl compound and sulfur dioxide;
- 6. recycling recovered organic carbonyl compound and sulfur dioxide from step 5 supra to step 1, supra;
- 7. distilling sulfur dioxide from the liquid separated from said reaction slurry in step 2 supra to precipitate dicalcium phosphate;
- 8. separating said dicalcium phosphate from liquid as product; and
- 9. recycling the liquid from step 8 supra to step 1 supra.
- 2. The process of claim 1 wherein step 4 thereof said wash effluent from step 3 is combined with liquid separated from reaction slurry in step 2.
- 3. A process for preparing dicalcium phosphate from beneficiated or unbeneficiated phosphate ore or mixtures thereof by use of sulfur dioxide, water, and acetone, which comprises the steps of:
- 1. mixing said phosphate ore with a mixture of sulfur dioxide, water, and acetone while maintaining the temperature of the resulting reaction slurry below 50.degree. C. for a period of time from about 0.5 to about 10 hours, wherein for each mole of calcium in said phosphate ore, 1.9 to 13.0 moles of acetone, 4.7 to 100 moles of water, and 0.7 moles to saturation values of sulfur dioxide are used;
- 2. separating the solids from the liquid in said reaction slurry from step 1 supra;
- 3. washing said solids from step 2 supra with a wash mixture composed of sulfur dioxide, water, and acetone to recover phosphate values, wherein for each pound of water in the wash mixture, 3 to 24 pounds of acetone and zero to saturation values of sulfur dioxide are used;
- 4. recycling phosphate containing wash effluent from step 3 supra to step 1 supra;
- 5. heating washed solids from step 3 supra for 15 to 75 minutes at temperatures from 90.degree. to 200.degree. C. to recover acetone and sulfur dioxide;
- 6. recycling recovered acetone and sulfur dioxide from step 5 supra to step 1 supra;
- 7. distilling sulfur dioxide from the liquid separated from said reaction slurry in step 2 supra to precipitate dicalcium phosphate;
- 8. separating said dicalcium phosphate from liquid as product; and
- 9. recycling the liquid from step 8 supra to step 1 supra.
- 4. The process of claim 3 wherein step 4 thereof said wash effluent from step 3 is combined with liquid separated from reaction slurry in step 2.
- 5. A process according to claim 3 wherein the temperature of the resulting reaction slurry is maintained below 35.degree. C. for a period of time from about 1 to about 10 hours, wherein for each mole of calcium in said phosphate ore, 3.1 to 4.5 moles of acetone and 11.0 to 18.6 moles of water are used, and wherein the reaction slurry is kept saturated with sulfur dioxide.
- 6. A process for preparing dicalcium phosphate from beneficiated or unbeneficiated phosphate ore or mixtures thereof by use of sulfur dioxide, water, and cyclohexanone, which comprises the steps of:
- 1. mixing said phosphate ore with a mixture of sulfur dioxide, water, and cyclohexanone while maintaining the temperature of the resulting reaction slurry below 50.degree. C. for a period of time from about 0.5 to about 10 hours, wherein for each mole of calcium in said phosphate ore, 1.9 to 5.0 moles of cyclohexanone and 17.0 to 180.0 moles of water and 0.7 moles to saturation values of sulfur dioxide are used;
- 2. separating the solids from the liquid in said reaction slurry from step 1 supra;
- 3. washing said solids from step 2 supra with a wash mixture composed of sulfur dioxide, water, and cyclohexanone to recover phosphate values; wherein for each pound of water in the wash mixture, 3 to 24 pounds of cyclohexanone and zero to saturation values of sulfur dioxide are used;
- 4. recycling phosphate containing wash effluent from step 3 supra to step 1 supra;
- 5. heating washed solids from step 3 supra for 15 to 75 minutes at temperatures from 156.degree. to 200.degree. C. to recover cyclohexanone and sulfur dioxide;
- 6. recycling recovered cyclohexanone and sulfur dioxide from step 5 supra to step 1 supra;
- 7. distilling sulfur dioxide from the liquid separated from said reaction slurry in step 2 supra to precipitate dicalcium phosphate;
- 8. separating said dicalcium phosphate from liquid as product; and
- 9. recycling liquid from step 8 supra to step 1 supra.
- 7. The process of claim 6 wherein step 4 thereof said wash effluent from step 3 is combined with liquid separated from reaction slurry in step 2.
- 8. A process according to claim 6 wherein the temperature of the resulting reaction slurry is maintained below 35.degree. C. for a period of time from 1 hour to 10 hours and wherein for each mole of calcium in said phosphate ore, from 2.3 to 3.2 moles of cyclohexanone and from 29 to 85 moles of water are used, and wherein the reaction slurry is kept saturated with sulfur dioxide.
- 9. A process for preparing dicalcium phosphate from beneficiated or unbeneficiated phosphate ore or mixtures thereof by use of sulfur dioxide, water, and benzaldehyde, which comprises the steps of:
- 1. mixing said phosphate ore with a mixture of sulfur dioxide, water, and benzaldehyde while maintaining the temperature of the resulting reaction slurry below 50.degree. C. for a period of time from 0.5 to 10 hours, wherein for each mole of calcium in said phosphate ore, 1.9 to 5.0 moles of benzaldehyde and 17.0 to 180.0 moles of water and 0.7 to saturation values of sulfur dioxide are used;
- 2. separating the solids from the liquid in said reaction slurry from step 1 supra;
- 3. washing said solids from step 2 supra with a wash mixture composed of sulfur dioxide, water, and benzaldehyde to recover phosphate values, wherein for each pound of water in the wash mixture, 3 to 24 pounds of benzaldehyde and zero to saturation values of sulfur dioxide are used;
- 4. recycling phosphate containing wash effluent from step 3 supra to step 1 supra;
- 5. heating washed solids from step 3 supra for 15 to 75 minutes at temperatures from 179.degree. to 200.degree. C. to recover benzaldehyde and sulfur dioxide;
- 6. recycling recovered benzaldehyde and sulfur dioxide from step 5 supra to step 1 supra;
- 7. distilling sulfur dioxide from the liquid separated from said reaction slurry in step 2 supra to precipitate dicalcium phosphate;
- 8. separating said dicalcium phosphate from liquid as product; and
- 9. recycling the liquid from step 8 supra to step 1 supra.
- 10. The process of claim 9 wherein step 4 thereof said wash effluent from step 3 is combined with liquid separated from the reaction slurry in step 2.
- 11. A process according to claim 9 wherein the temperature of the resulting reactin slurry is maintained below 35.degree. C. for a period of time from 1 to 10 hours, wherein for each mole of calcium in said phosphate ore, from 2.3 to 3.2 moles of benzaldehyde and from 29 to 85 moles of water are used, and wherein the reaction slurry is kept saturated with sulfur dioxide.
- 12. A process for preparation of dicalcium phosphate from beneficiated or unbeneficiated phosphate ore or mixtures thereof by use of sulfur dioxide, water, and formaldehyde, which comprises the steps of:
- 1. mixing said phosphate ore with a mixture of sulfur dioxide, water, and formaldehyde while maintaining the temperature of the resulting reaction slurry below 50.degree. C. for a period of time from 0.5 to 10 hours, wherein for each mole of calcium in said phosphate ore, 1.9 to 13 moles of formaldehyde and 4.7 to 100 moles of water and 0.7 moles to saturation values of sulfur dioxide are used;
- 2. separating the solids from the liquid in said reaction slurry from step 1 supra;
- 3. washing said solids from step 2 supra with a wash mixture composed of sulfur dioxide, water, and formaldehyde to recover phosphate values, wherein for each pound of water in the wash mixture, 0.1 to 0.4 pounds of formaldehyde and zero to saturation values of sulfur dioxide are used;
- 4. recycling phosphate containing wash effluent from step 3 supra to step 1 supra;
- 5. heating washed solids from step 3 supra for 15 to 75 minutes at temperatures from 90.degree. to 200.degree. C. to recover formaldehyde and sulfur dioxide;
- 6. recycling recovered formaldehyde and sulfur dioxide from step 5 supra to step 1 supra;
- 7. distilling sulfur dioxide from the liquid separated from reaction slurry in step 2 supra to precipitate dicalcium phosphate;
- 8. separating said dicalcium phosphate from liquid as product; and
- 9. recycling the liquid from step 8 supra to step 1 supra.
- 13. The process of claim 12 wherein step 4 thereof said wash effluent from step 3 is combined with liquid separated from reaction slurry in step 2 supra.
- 14. A process according to claim 12 wherein the temperature of the resulting reaction slurry is maintained below 35.degree. C. for a period of time from 1 hour to 10 hours, wherein for each mole of calcium in said phosphate ore, from 2.3 to 11.5 moles of formaldehyde and from 11 to 88 moles of water are used, and wherein the reaction slurry is kept saturated with sulfur dioxide.
Parent Case Info
This application is a continuation of application Ser. No. 730,210, filed Oct. 6, 1976, for PREPARATION OF DICALCIUM PHOSPHATE FROM PHOSPHATE ROCK BY THE USE OF SULFUR DIOXIDE, WATER, AND CARBONYL COMPOUNDS, now Defensive Publication No. T962,001.
Government Interests
The invention herein described may be manufactured and used by or for the Government for governmental purposes without the payment to us of any royalty therefor.
US Referenced Citations (3)
Non-Patent Literature Citations (1)
Entry |
Wilson, The Industrial Potential of SO.sub.2 -Carbonyl Compound--Water Mixture, Proceedings of the Can Sulfur Symposium, 1974. |
Continuations (1)
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Number |
Date |
Country |
Parent |
730210 |
Oct 1976 |
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