Hydrocarbon gas processing
First Claim
1. In a process for the separation of a gas stream containing methane, C2 components, C3 components and heavier hydrocarbon components into a volatile residue gas fraction containing a major portion of said methane and a relatively less volatile fraction containing a major portion of said C2 components, C3 components and heavier hydrocarbon components, in which process (a) said gas stream is treated in one or more heat exchange steps to produce at least a first feed stream that has been cooled under pressure;
- (b) said cooled first feed stream is expanded to a lower pressure, and thereafter supplied to a fractionation tower at a top feed point; and
(c) said cooled expanded first feed stream is fractionated at said lower pressure whereby the components of said relatively less volatile fraction are recovered;
the improvement wherein (1) a liquid distillation stream is withdrawn from said fractionation tower and heated;
(2) said heated distillation stream is returned to a lower point on said fractionation tower that is separated from said withdrawal point by at least one theoretical stage; and
(3) the quantities and temperatures of said feed streams to said fractionation tower are effective to maintain the overhead temperature of said fractionation tower at a temperature whereby the major portions of the components in said relatively less volatile fraction are recovered.
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Accused Products
Abstract
A process for the recovery of ethane, ethylene, propane, propylene and heavier hydrocarbon components from a hydrocarbon gas stream is disclosed. In recent years, the preferred method of separating a hydrocarbon gas stream generally includes supplying at least portions of the gas stream to a fractionation tower having at least one reboiler, and often one or more side reboilers, to supply heat to the column by withdrawing and heating some of the tower liquids to produce stripping vapors that separate the more volatile components from the desired components. The reboiler and side reboilers (if any) are typically integrated into the feed stream cooling scheme to provide at least a portion of the refrigeration needed to condense the desired components for subsequent fractionation in the distillation column. In the process disclosed, the tower reboiling scheme is modified to use one or more tower liquid distillation streams from a point higher in the column than is used in the conventional reboiling scheme, providing colder stream(s) for the reboiler(s) that allow more effective cooling of the feed streams and thereby improve the efficiency with which the desired components are recovered. In addition, the tower liquid streams withdrawn from a higher point in the column contain larger quantities of the more volatile components, which when vaporized provide better stripping of undesirable components like carbon dioxide without reducing the recovery of the desired components. The heated distillation stream is returned to a lower point on the fractionation tower that is separated from the withdrawal point by at least one theoretical stage.
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Citations
13 Claims
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1. In a process for the separation of a gas stream containing methane, C2 components, C3 components and heavier hydrocarbon components into a volatile residue gas fraction containing a major portion of said methane and a relatively less volatile fraction containing a major portion of said C2 components, C3 components and heavier hydrocarbon components, in which process
(a) said gas stream is treated in one or more heat exchange steps to produce at least a first feed stream that has been cooled under pressure; -
(b) said cooled first feed stream is expanded to a lower pressure, and thereafter supplied to a fractionation tower at a top feed point; and
(c) said cooled expanded first feed stream is fractionated at said lower pressure whereby the components of said relatively less volatile fraction are recovered;
the improvement wherein (1) a liquid distillation stream is withdrawn from said fractionation tower and heated;
(2) said heated distillation stream is returned to a lower point on said fractionation tower that is separated from said withdrawal point by at least one theoretical stage; and
(3) the quantities and temperatures of said feed streams to said fractionation tower are effective to maintain the overhead temperature of said fractionation tower at a temperature whereby the major portions of the components in said relatively less volatile fraction are recovered. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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2. In a process for the separation of a gas stream containing methane, C2 components, C3 components and heavier hydrocarbon components into a volatile residue gas fraction containing a major portion of said methane and a relatively less volatile fraction containing a major portion of said C2 components, C3 components and heavier hydrocarbon components, in which process
(a) said gas stream is treated in one or more heat exchange steps and at least one division step to produce at least a first feed stream that has been cooled under pressure to condense substantially all of it, and at least a second feed stream that has been cooled under pressure; -
(b) said substantially condensed first feed stream is expanded to a lower pressure whereby it is further cooled, and thereafter directed in heat exchanger relation with a warmer distillation stream which rises from fractionation stages of a fractionation tower;
(c) said distillation stream is cooled by said first stream sufficiently to partially condense it, whereupon said partially condensed distillation stream is separated to provide said volatile residue gas fraction and a reflux stream, with said reflux stream thereafter supplied to said fractionation tower at a top feed point;
(d) said warmed first stream is supplied to said fractionation tower at a first mid-column feed point;
(e) said cooled second feed stream is expanded to said lower pressure, and thereafter supplied to said fractionation tower at a second mid-column feed point; and
(f) said reflux stream, said heated first feed stream, and said expanded second feed stream are fractionated at said lower pressure whereby the components of said relatively less volatile fraction are recovered;
the improvement wherein (1) a liquid distillation stream is withdrawn from said fractionation tower and heated;
(2) said heated distillation stream is returned to a lower point on said fractionation tower that is separated from said withdrawal point by at least one theoretical stage; and
(3) the quantities and temperatures of said feed streams to said fractionation tower are effective to maintain the overhead temperature of said fractionation tower at a temperature whereby the major portions of the components in said relatively less volatile fraction are recovered.
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Specification