US2008219909A1PendingUtilityA1

Phosphorous Pentoxide Producing Methods

58
Assignee: MEGY JOSEPH APriority: Jun 4, 2004Filed: May 22, 2008Published: Sep 11, 2008
Est. expiryJun 4, 2024(expired)· nominal 20-yr term from priority
Inventors:Joseph A. Megy
C01B 25/12
58
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Claims

Abstract

A phosphorous pentoxide producing method includes forming a kiln bed using feed agglomerates with a calcium-to-silica mole ratio of less than 1.0 and maintaining a bed temperature at or above 1180° C. along at least 50% of the bed length without exceeding 1380° C. along the entire bed length. Less than 10% of the agglomerates' phosphate input to the kiln remains in the kiln residue as phosphate. Another method includes maintaining a bed temperature at or above 1180° C. along a portion of the bed length and establishing a bed surface-to-volume ratio multiplied by a time for bed heat up to 1180° C. of less than 50 minutes-ft 2 /ft 3 .

Claims

exact text as granted — not AI-modified
1 - 29 . (canceled) 
     
     
         30 . A phosphorous pentoxide producing method comprising:
 forming a kiln bed using feed agglomerates in a counter-current rotary kiln, the bed having a length;   the agglomerates containing phosphate ore particles, carbonaceous material particles, and sufficient silica particles for the agglomerates to exhibit a calcium-to-silica mole ratio of from 0.5 to 1.0;   maintaining a bed temperature at or above 1260° C. along a portion of the bed length without exceeding 1380° C. along the entire bed length; and   generating kiln off gas from the portion of the bed at or above 1260° C. and collecting phosphorous pentoxide from the kiln off gas, the kiln discharging a residue containing processed agglomerates, less than 10% of the agglomerates' phosphate input to the kiln remaining in the residue as phosphate.   
     
     
         31 . The method of  claim 30  wherein the agglomerates comprise phosphate ore particles, carbonaceous material particles, and silica particles co-ground together. 
     
     
         32 . The method of  claim 30  further comprising:
 adding over bed air through a plurality of ports along the bed length, the ports being of sufficient location, number, and throughput to supply a more even temperature along the portion of the bed at or above 1260° C. compared to otherwise identical processing without the over bed air.   
     
     
         33 . A phosphorous pentoxide producing method comprising:
 co-grinding a mixture containing phosphate ore, carbonaceous material, and silica and forming feed agglomerates from the co-ground mixture;   forming a kiln bed using the feed agglomerates in a counter-current rotary kiln, the bed having a length;   the agglomerates containing phosphate ore particles, carbonaceous material particles, and sufficient silica particles for the agglomerates to exhibit a calcium-to-silica mole ratio of less than 1.0;   maintaining a bed temperature at or above 1180° C. along a portion of the bed length without exceeding 1380° C. along the entire bed length and establishing a bed surface-to-volume ratio multiplied by a time for bed heat up to 1180° C. of less than 50 minutes-ft 2 /ft 3 ; and   generating kiln off gas and collecting phosphorous pentoxide from the kiln off gas.   
     
     
         34 . The method of  claim 33  wherein the kiln discharges a residue containing processed agglomerates, less than 10% of the agglomerates' phosphate input to the kiln remaining in the residue as phosphate. 
     
     
         35 . The method of  claim 33  wherein individual agglomerates substantially exhibit a same elemental composition, a same calcium-to-silica mole ratio, and a same proportion of excess fixed carbon compared to a theoretical carbon requirement for reduction of all phosphate in the ore. 
     
     
         36 . The method of  claim 33  wherein the carbonaceous material comprises green petroleum coke particles and, before being co-ground with the ore and the silica, at least about 80% of all green petroleum coke particles comprised by the carbonaceous material exhibit a size less than 200 mesh. 
     
     
         37 . The method of  claim 33  wherein establishing the bed surface-to-volume ratio multiplied by bed heat up time comprises further providing a kiln configuration, a bed volume and composition, and kiln process conditions sufficient, in combination, for the kiln to exhibit the ratio. 
     
     
         38 . The method of  claim 33  comprising maintaining the bed temperature at or above 1260° C. along at last 50% of the bed length without exceeding 1310° C. along the entire bed length. 
     
     
         39 . The method of  claim 33  further comprising blanketing the bed with volatiles evolving from the carbonaceous material during bed heat up from about 600 to about 950° C. 
     
     
         40 . The method of  claim 33  wherein the kiln bed further comprises, initially, from about 1 to about 2 wt % bedding coke or coal and the method further comprises blanketing the bed with volatiles evolving from the bedding coke or coal during bed heat up from about 100 to about 650° C. 
     
     
         41 . The method of  claim 33  further comprising maintaining the bed with an inlet dam sufficiently tapered such that it reduces turbulence compared to otherwise identical processing with an untapered dam. 
     
     
         42 . The method of  claim 33  further comprising:
 adding over bed air and/or oxygen through a plurality of ports along the bed length, the ports being of sufficient location, number, and throughput to decrease a time for bed heat up to 1180° C. and to maintain a more even temperature along the portion of the bed at or above 1180° C. compared to otherwise identical processing without the over bed air and/or oxygen.   
     
     
         43 . The method of  claim 33  further comprising:
 monitoring temperature at an inner surface of the kiln at a plurality of points along the bed length, the inner surface contacting the bed;   adding over bed air and/or oxygen through a plurality of ports along the bed length; and   controlling addition of over bed air and/or oxygen based at least on the temperature monitoring.   
     
     
         44 . The method of  claim 33  further comprising:
 monitoring oxygen and carbon monoxide content of the kiln off gas;   adding over bed air and/or oxygen through a plurality of ports along the bed length; and   controlling addition of over bed air and/or oxygen based at least on the oxygen and carbon monoxide monitoring.   
     
     
         45 . A phosphorous pentoxide producing method comprising:
 forming a kiln bed using feed agglomerates and, initially, from about 1 to about 2 wt % bedding coke or coal in a counter-current rotary kiln, the bed having a length and having a surface-to-volume ratio of less than about 1.15 ft 2 /ft 3  and the kiln having an inner diameter of at least about 6 feet;   the agglomerates containing phosphate ore particles, carbonaceous material particles containing from about 8 to about 12 wt % volatiles, and sufficient silica particles for the agglomerates to exhibit a calcium-to-silica mole ratio of from 0.5 to less than 1.0, at least about 80% of all particles exhibiting a size less than 200 mesh;   individual agglomerates substantially exhibiting a same elemental composition, a same calcium-to-silica mole ratio, and a same proportion of excess fixed carbon at least about 1.3 times a theoretical carbon requirement for reduction of all phosphate in the ore;   adding over bed air and/or oxygen through a plurality of ports along the bed length, the ports being of sufficient location, number, and throughput to decrease a time for bed heat up to 1180° C. compared to otherwise identical processing without the over bed air and/or oxygen;   blanketing the bed with volatiles evolving from the bedding coke or coal during bed heat up from about 100 to about 650° C.;   blanketing the bed with volatiles evolving from the carbonaceous material during bed heat up from about 600 to about 950° C.;   maintaining a bed temperature at or above 1180° C. along at least 50% of the bed length without exceeding 1310° C. along the entire bed length; and   generating kiln off gas and collecting phosphorous pentoxide from the kiln off gas.   
     
     
         46 . The method of  claim 45  wherein the kiln discharges a residue containing processed agglomerates, less than 10% of the agglomerates' phosphate input to the kiln remaining in the residue as phosphate. 
     
     
         47 . The method of  claim 45  wherein the carbonaceous material comprises green petroleum coke. 
     
     
         48 . The method of  claim 45  comprising maintaining the bed temperature at or above 1260° C. along at least 50% of the bed length. 
     
     
         49 . The method of  claim 45  further comprising:
 monitoring temperature at an inner surface of the kiln along the bed length, the inner surface contacting the bed;   monitoring oxygen, carbon monoxide, and carbon dioxide content in the kiln off gas; and   controlling the addition of over bed air and/or oxygen based at least on the oxygen, carbon monoxide, and carbon dioxide monitoring and the temperature monitoring.

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