A process for liquefying natural gas in conjunction with producing a liquid stream containing predominantly hydrocarbons heavier than methane is disclosed. In the process, the natural gas stream to be liquefied is partially cooled, expanded to an intermediate pressure, and supplied to a distillation
A process for liquefying natural gas in conjunction with producing a liquid stream containing predominantly hydrocarbons heavier than methane is disclosed. In the process, the natural gas stream to be liquefied is partially cooled, expanded to an intermediate pressure, and supplied to a distillation column. The bottom product from this distillation column preferentially contains the majority of any hydrocarbons heavier than methane that would otherwise reduce the purity of the liquefied natural gas. The residual gas stream from the distillation column is compressed to a higher intermediate pressure, cooled under pressure to condense it, and then expanded to low pressure to form the liquefied natural gas stream.
대표청구항▼
We claim: 1. In a process for liquefying a natural gas stream containing methane and heavier hydrocarbon components wherein (a) said natural gas stream is cooled under pressure to condense at least a portion of it and form a condensed stream; and (b) said condensed stream is expanded to lower press
We claim: 1. In a process for liquefying a natural gas stream containing methane and heavier hydrocarbon components wherein (a) said natural gas stream is cooled under pressure to condense at least a portion of it and form a condensed stream; and (b) said condensed stream is expanded to lower pressure to form said liquefied natural gas stream; the improvement wherein (1) said natural gas stream is treated in one or more cooling steps; (2) said cooled natural gas stream is expanded to an intermediate pressure and thereafter directed into a contacting device, thereby forming a volatile residue gas fraction containing a major portion of said methane and lighter components and a first liquid stream; (3) said first liquid stream is heated and thereafter directed into a distillation column wherein said stream is separated into a more volatile vapor distillation stream and a relatively less volatile fraction containing a major portion of said heavier hydrocarbon components; (4) said more volatile vapor distillation stream is cooled sufficiently to condense at least a part of it, thereby forming a second liquid stream; (5) at least a portion of said expanded cooled natural gas stream is intimately contacted with at least part of said second liquid stream in said contacting device; and (6) said volatile residue gas fraction is cooled under pressure to condense at least a portion of it and form thereby said condensed stream. 2. In a process for liquefying a natural gas stream containing methane and heavier hydrocarbon components wherein (a) said natural gas stream is cooled under pressure to condense at least a portion of it and form a condensed stream; and (b) said condensed stream is expanded to lower pressure to form said liquefied natural gas stream; the improvement wherein (1) said natural gas stream is treated in one or more cooling steps to partially condense it; (2) said partially condensed natural gas stream is separated to provide thereby a vapor stream and a first liquid stream; (3) said vapor stream is expanded to an intermediate pressure and thereafter directed into a contacting device, thereby forming a volatile residue gas fraction containing a major portion of said methane and lighter components and a second liquid stream; (4) said second liquid stream is heated; (5) said first liquid stream is expanded to said intermediate pressure; (6) said heated second liquid stream and said expanded first liquid stream are directed into a distillation column wherein said streams are separated into a more volatile vapor distillation stream and a relatively less volatile fraction containing a major portion of said heavier hydrocarbon components; (7) said more volatile vapor distillation stream is cooled sufficiently to condense at least a part of it, thereby forming a third liquid stream; (8) at least a portion of said expanded vapor stream is intimately contacted with at least part of said third liquid stream in said contacting device; and (9) said volatile residue gas fraction is cooled under pressure to condense at least a portion of it and form thereby said condensed stream. 3. In a process for liquefying a natural gas stream containing methane and heavier hydrocarbon components wherein (a) said natural gas stream is cooled under pressure to condense at least a portion of it and form a condensed stream; and (b) said condensed stream is expanded to lower pressure to form said liquefied natural gas stream; the improvement wherein (1) said natural gas stream is treated in one or more cooling steps; (2) said cooled natural gas stream is expanded to an intermediate pressure and thereafter directed into a contacting device, thereby forming a first vapor stream and a first liquid stream; (3) said first liquid stream is heated and thereafter directed into a distillation column wherein said stream is separated into a more volatile vapor distillation stream and a relatively less volatile fraction containing a major portion of said heavier hydrocarbon components; (4) said more volatile vapor distillation stream is cooled sufficiently to condense at least a part of it, thereby forming a second vapor stream and a second liquid stream; (5) a portion of said second liquid stream is directed into said distillation column as a top feed thereto; (6) at least a portion of said expanded cooled natural gas stream is intimately contacted with at least part of the remaining portion of said second liquid stream in said contacting device; (7) said first vapor stream is combined with said second vapor stream to form a volatile residue gas fraction containing a major portion of said methane and lighter components; and (8) said volatile residue gas fraction is cooled under pressure to condense at least a portion of it and form thereby said condensed stream. 4. In a process for liquefying a natural gas stream containing methane and heavier hydrocarbon components wherein (a) said natural gas stream is cooled under pressure to condense at least a portion of it and form a condensed stream; and (b) said condensed stream is expanded to lower pressure to form said liquefied natural gas stream; the improvement wherein (1) said natural gas stream is treated in one or more cooling steps to partially condense it; (2) said partially condensed natural gas stream is separated to provide thereby a first vapor stream and a first liquid stream; (3) said first vapor stream is expanded to an intermediate pressure and thereafter directed into a contacting device, thereby forming a second vapor stream and a second liquid stream; (4) said second liquid stream is heated; (5) said first liquid stream is expanded to said intermediate pressure; (6) said heated second liquid stream and said expanded first liquid stream are directed into a distillation column wherein said streams are separated into a more volatile vapor distillation stream and a relatively less volatile fraction containing a major portion of said heavier hydrocarbon components; (7) said more volatile vapor distillation stream is cooled sufficiently to condense at least a part of it, thereby forming a third vapor stream and a third liquid stream; (8) a portion of said third liquid stream is directed into said distillation column as a top feed thereto; (9) at least a portion of said expanded first vapor stream is intimately contacted with at least part of the remaining portion of said third liquid stream in said contacting device; (10) said second vapor stream is combined with said third vapor stream to form a volatile residue gas fraction containing a major portion of said methane and lighter components; and (11) said volatile residue gas fraction is cooled under pressure to condense at least a portion of it and form thereby said condensed stream. 5. The improvement according to claim 1, 2, 3 or 4 wherein said volatile residue gas fraction is compressed and thereafter cooled under pressure to condense at least a portion of it and form thereby said condensed stream. 6. The improvement according to claim 1, 2, 3 or 4 wherein said volatile residue gas fraction is heated, compressed, and thereafter cooled under pressure to condense at least a portion of it and form thereby said condensed stream. 7. The improvement according to claim 1, 2, 3 or 4 wherein said volatile residue gas fraction contains a major portion of said methane, lighter components, and C2 components. 8. The improvement according to claim 1, 2, 3 or 4 wherein said volatile residue gas fraction contains a major portion of said methane, lighter components, C2 components, and C3 components. 9. The improvement according to claim 5 wherein said volatile residue gas fraction contains a major portion of said methane, lighter components, and C2 components. 10. The improvement according to claim 6 wherein said volatile residue gas fraction contains a major portion of said methane, lighter components, and C2 components. 11. The improvement according to claim 5 wherein said volatile residue gas fraction contains a major portion of said methane, lighter components, C2 components, and C3 components. 12. The improvement according to claim 6 wherein said volatile residue gas fraction contains a major portion of said methane, lighter components, C2 components, and C3 components.
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