Process for producing polymer grade olefins
First Claim
1. A process for producing polymer grade olefins comprising:
- a) passing an oxygenate feedstock comprising an alcohol or an ether having from 1 to 4 carbon atoms per molecule to a fluidized reaction zone containing an aluminophosphate molecular sieve catalyst in the presence of a diluent at conditions effective to convert the oxygenate feedstock to a light olefin product stream comprising ethylene, propylene, butylene and to produce a spent aluminophosphate molecular sieve catalyst;
b) passing the light olefin product stream to a separation zone to separate the light olefin product stream into an ethylene stream, a propylene stream, and a mixed butylene and heavier stream;
c) withdrawing at least a portion of the spent aluminophosphate molecular sieve catalyst from the fluidized reaction zone and passing the spent aluminophosphate molecular sieve catalyst to a regenerator to regenerate the spent aluminophosphate molecular sieve catalyst with an oxygen-containing stream to produce a regenerated catalyst; and
,d) returning a first portion of the regenerated catalyst to the fluidized reaction zone and admixing a second portion of the regenerated catalyst with a portion of the mixed butylene and heavier stream to provide a feed admixture and passing the feed admixture to a cracking reaction zone at conditions effective to convert the mixed butylene and heavier stream to produce a second product stream comprising additional amounts of ethylene and propylene and to produce a third regenerated catalyst portion; and
,e) passing at least a portion of the second product stream to the fluidized reaction zone.
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Abstract
The present invention relates to a process for the production of light olefins comprising olefins having from 2 to 4 carbon atoms per molecule from an oxygenate feedstock. The process comprises passing the oxygenate feedstock to an oxygenate conversion zone containing a metal aluminophosphate catalyst to produce a light olefin stream. A propylene stream and/or mixed butylene is fractionated from said light olefin stream and cracked to enhance the yield of ethylene and propylene products. This combination of light olefin product and propylene and butylene cracking in a riser cracking zone or a separate cracking zone provides flexibility to the process which overcomes the equilibrium limitations of the aluminophosphate catalyst. In addition, the invention provides the advantage of extended catalyst life and greater catalyst stability in the oxygenate conversion zone.
155 Citations
19 Claims
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1. A process for producing polymer grade olefins comprising:
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a) passing an oxygenate feedstock comprising an alcohol or an ether having from 1 to 4 carbon atoms per molecule to a fluidized reaction zone containing an aluminophosphate molecular sieve catalyst in the presence of a diluent at conditions effective to convert the oxygenate feedstock to a light olefin product stream comprising ethylene, propylene, butylene and to produce a spent aluminophosphate molecular sieve catalyst; b) passing the light olefin product stream to a separation zone to separate the light olefin product stream into an ethylene stream, a propylene stream, and a mixed butylene and heavier stream; c) withdrawing at least a portion of the spent aluminophosphate molecular sieve catalyst from the fluidized reaction zone and passing the spent aluminophosphate molecular sieve catalyst to a regenerator to regenerate the spent aluminophosphate molecular sieve catalyst with an oxygen-containing stream to produce a regenerated catalyst; and
,d) returning a first portion of the regenerated catalyst to the fluidized reaction zone and admixing a second portion of the regenerated catalyst with a portion of the mixed butylene and heavier stream to provide a feed admixture and passing the feed admixture to a cracking reaction zone at conditions effective to convert the mixed butylene and heavier stream to produce a second product stream comprising additional amounts of ethylene and propylene and to produce a third regenerated catalyst portion; and
,e) passing at least a portion of the second product stream to the fluidized reaction zone. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A process for the production of light olefins comprising ethylene from a feedstock comprising methanol, said process comprising:
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a) passing said feedstock in the presence of a diluent to a reaction zone containing an aluminophosphate catalyst at conditions effective to convert at least a portion of said feedstock to form a first reactor effluent stream comprising ethylene, propylene, and butylene and heavier olefins; b) passing said first reactor effluent stream and a second reactor effluent stream to a C2 fractionation zone to provide an ethylene product stream and a C3 and heavier stream; c) passing the C3 and heavier stream to a C3 fractionation zone to provide a propylene stream and a mixed butylene and heavier stream; d) cracking at least a portion of said mixed butylene and heavier stream in a separate cracking zone to provide the second reactor effluent stream, and returning said second reactor effluent stream to said C2 fractionation zone; and e) passing a portion of the mixed butylene stream to a polymerization zone at conditions effective to produce a polymer gasoline and passing at least a portion of said polymer gasoline to said separate cracking zone. - View Dependent Claims (16, 17, 18, 19)
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Specification