Process for producing ethylene
First Claim
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1. A process for the production of an ethylene product stream from an oxygenate conversion effluent stream comprising hydrogen, carbon dioxide, water, methane, ethylene, ethane, propylene, propane, and C4-plus olefins said process comprising:
- a) passing the oxygenate conversion effluent stream to a carbon dioxide removal zone to remove at least a portion of the carbon dioxide to produce a carbon dioxide depleted stream;
b) passing the carbon dioxide depleted stream to a dryer zone containing a solid desiccant to remove water to produce a dry deethanizer feed stream;
c) passing the dry deethanizer stream to a deethanizer zone to provide a light hydrocarbon feedstream comprising hydrogen, methane, ethylene and ethane, and a deethanized stream comprising propylene, propane, and C4-plus olefins;
d) passing the light hydrocarbon stream to a demethanizer zone operating at a demethanizing temperature greater than about −
45°
C. to provide a bottom stream comprising ethylene and ethane and an overhead stream comprising hydrogen, methane, and ethylene;
e) passing the overhead stream at effective adsorption conditions to an adsorption zone containing at least two adsorption beds, each of said adsorption beds containing a selective adsorbent to adsorb the ethylene on adsorption to produce an adsorber effluent stream comprising hydrogen and methane, and on desorption to produce a desorbed stream comprising ethylene and immediately following adsorption withdrawing a vent stream comprising hydrogen and methane in a cocurrent depressurization step which is terminated prior to the breakthrough of ethylene;
f) regenerating the dryer zone with at least a portion of the adsorber effluent stream and at least a portion of the vent stream;
g) passing the bottom stream to a C2 splitter zone to produce the ethylene product stream and an ethane stream; and
h) combining the desorbed stream with the oxygenate conversion effluent stream prior to passing the oxygenate conversion effluent stream to the deethanizer zone.
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Abstract
A process is provided for the concentration and recovery of ethylene and heavier components from an oxygenate conversion process. A separation process such as a pressure swing adsorption (PSA) process is used to remove hydrogen and methane from a demethanizer overhead stream comprising hydrogen, methane, and C
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Citations
4 Claims
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1. A process for the production of an ethylene product stream from an oxygenate conversion effluent stream comprising hydrogen, carbon dioxide, water, methane, ethylene, ethane, propylene, propane, and C4-plus olefins said process comprising:
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a) passing the oxygenate conversion effluent stream to a carbon dioxide removal zone to remove at least a portion of the carbon dioxide to produce a carbon dioxide depleted stream;
b) passing the carbon dioxide depleted stream to a dryer zone containing a solid desiccant to remove water to produce a dry deethanizer feed stream;
c) passing the dry deethanizer stream to a deethanizer zone to provide a light hydrocarbon feedstream comprising hydrogen, methane, ethylene and ethane, and a deethanized stream comprising propylene, propane, and C4-plus olefins;
d) passing the light hydrocarbon stream to a demethanizer zone operating at a demethanizing temperature greater than about −
45°
C. to provide a bottom stream comprising ethylene and ethane and an overhead stream comprising hydrogen, methane, and ethylene;
e) passing the overhead stream at effective adsorption conditions to an adsorption zone containing at least two adsorption beds, each of said adsorption beds containing a selective adsorbent to adsorb the ethylene on adsorption to produce an adsorber effluent stream comprising hydrogen and methane, and on desorption to produce a desorbed stream comprising ethylene and immediately following adsorption withdrawing a vent stream comprising hydrogen and methane in a cocurrent depressurization step which is terminated prior to the breakthrough of ethylene;
f) regenerating the dryer zone with at least a portion of the adsorber effluent stream and at least a portion of the vent stream;
g) passing the bottom stream to a C2 splitter zone to produce the ethylene product stream and an ethane stream; and
h) combining the desorbed stream with the oxygenate conversion effluent stream prior to passing the oxygenate conversion effluent stream to the deethanizer zone. - View Dependent Claims (2, 3, 4)
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Specification
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Current AssigneeUOP Llc (Honeywell International Inc.)
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Original AssigneeUOP Llc (Honeywell International Inc.)
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InventorsCheng, Linda Shi, Senetar, John J., Miller, Lawrence W., Davis, Mark M.
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Primary Examiner(s)GRIFFIN, WALTER DEAN
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Application NumberUS09/411,123Time in Patent Office743 DaysField of Search585/638, 585/639, 585/802, 585/809, 585/820, 585/822, 585/833US Class Current585/639CPC Class CodesC07C 11/04 EthyleneC07C 2521/04 AluminaC07C 2521/08 SilicaC07C 2521/18 CarbonC07C 2529/08 of the faujasite type, e.g....Y02P 30/20 using bio-feedstockY02P 30/40 Ethylene production
