Liquefaction of Natural Gas
Abstract
Systems and a method for the formation of a liquefied natural gas (LNG) are disclosed herein. The system includes a first fluorocarbon refrigeration system configured to chill a natural gas using a first fluorocarbon refrigerant and a second fluorocarbon refrigeration system configured to further chill the natural gas using a second fluorocarbon refrigerant. The system also includes a nitrogen refrigeration system configured to cool the natural gas using a nitrogen refrigerant to produce LNG and a nitrogen rejection unit configured to remove nitrogen from the LNG. As an alternative embodiment, the nitrogen refrigeration system can be replaced by a methane autorefrigeration system.
Claims
exact text as granted — not AI-modified1 . A hydrocarbon processing system for formation of a liquefied natural gas (LNG), comprising:
a first fluorocarbon refrigeration system configured to chill a natural gas using a first fluorocarbon refrigerant; a second fluorocarbon refrigeration system configured to further chill the natural gas using a second fluorocarbon refrigerant; a methane autorefrigeration system configured to cool the natural gas to produce LNG; and a nitrogen rejection unit upstream of the methane autorefrigeration system and configured to remove nitrogen from the natural gas.
2 . The hydrocarbon processing system of claim 1 , wherein the first fluorocarbon refrigeration system is configured to cool the second fluorocarbon refrigerant of the second fluorocarbon refrigeration system.
3 . (canceled)
4 . The hydrocarbon processing system of claim 1 , wherein the first fluorocarbon refrigeration system or the second fluorocarbon refrigeration system, or both, comprises multiple cooling cycles.
5 . (canceled)
6 . The hydrocarbon processing system of claim 1 , wherein the first fluorocarbon refrigeration system comprises:
a compressor configured to compress the first fluorocarbon refrigerant to provide a compressed first fluorocarbon refrigerant; a chiller configured to cool the compressed first fluorocarbon refrigerant by indirect heat exchange with a cooling fluid; a valve configured to expand the compressed first fluorocarbon refrigerant to cool the compressed first fluorocarbon refrigerant, thereby producing a cooled first fluorocarbon refrigerant; and a heat exchanger configured to cool the natural gas via indirect heat exchange with the cooled first fluorocarbon refrigerant.
7 . The hydrocarbon processing system of claim 1 , wherein the second fluorocarbon refrigeration system comprises:
a compressor configured to compress the second fluorocarbon refrigerant to provide a compressed second fluorocarbon refrigerant; a chiller configured to cool the compressed second fluorocarbon refrigerant by indirect heat exchange with a cooling fluid; a valve configured to expand the compressed second fluorocarbon refrigerant to cool the compressed second fluorocarbon refrigerant, thereby producing a cooled second fluorocarbon refrigerant; and a heat exchanger configured to cool the natural gas via indirect heat exchange with the cooled second fluorocarbon refrigerant.
8 . The hydrocarbon processing system of claim 1 , wherein the first fluorocarbon refrigerant comprises R-410A.
9 . The hydrocarbon processing system of claim 1 , wherein the second fluorocarbon refrigerant comprises R-508B.
10 . The hydrocarbon processing system of claim 1 , wherein the first fluorocarbon refrigerant or the second fluorocarbon refrigerant, or both, comprises a nontoxic, nonflammable refrigerant.
11 . The hydrocarbon processing system of claim 1 , wherein the first fluorocarbon refrigeration system or the second fluorocarbon refrigeration system, or both, comprises two or more chillers and two or more compressors.
12 . The hydrocarbon processing system of claim 1 , wherein the first fluorocarbon refrigeration system and the second fluorocarbon refrigeration system are implemented in series.
13 - 14 . (canceled)
15 . The hydrocarbon processing system of claim 1 , wherein the hydrocarbon processing system is configured to chill the natural gas for hydrocarbon dew point control.
16 . The hydrocarbon processing system of claim 1 , wherein the hydrocarbon processing system is configured to chill the natural gas for natural gas liquid extraction.
17 . The hydrocarbon processing system of claim 1 , wherein the hydrocarbon processing system is configured to separate methane and lighter gases from carbon dioxide and heavier gases.
18 . The hydrocarbon processing system of claim 1 , wherein the hydrocarbon processing system is configured to prepare hydrocarbons for liquefied petroleum gas production storage.
19 . The hydrocarbon processing system of claim 1 , wherein the hydrocarbon processing system is configured to condense a reflux stream.
20 . A method for formation of a liquefied natural gas (LNG), comprising:
cooling a natural gas in a first fluorocarbon refrigeration system; cooling the natural gas in a second fluorocarbon refrigeration system; removing nitrogen from the LNG natural gas in a nitrogen rejection unit; and liquefying the natural gas in a methane autorefrigeration system to form LNG.
21 . The method of claim 20 , comprising cooling a second fluorocarbon refrigerant of the second fluorocarbon refrigeration system within the first fluorocarbon refrigeration system.
22 . (canceled)
23 . The method of claim 20 , wherein cooling the natural gas in the first fluorocarbon refrigeration system comprises:
compressing a first fluorocarbon refrigerant to provide a compressed first fluorocarbon refrigerant; optionally cooling the compressed first fluorocarbon refrigerant by indirect heat exchange with a cooling fluid; expanding the compressed first fluorocarbon refrigerant to cool the compressed first fluorocarbon refrigerant, thereby producing an expanded, cooled first fluorocarbon refrigerant; passing said expanded, cooled first fluorocarbon refrigerant to a first heat exchange area; optionally compressing the natural gas; optionally cooling the natural gas by indirect heat exchange with an external cooling fluid; and heat exchanging the natural gas with the expanded, cooled first fluorocarbon refrigerant.
24 . The method of claim 20 , wherein cooling the natural gas in the second fluorocarbon refrigeration system comprises:
compressing a second fluorocarbon refrigerant to provide a compressed second fluorocarbon refrigerant; optionally cooling the compressed second fluorocarbon refrigerant by indirect heat exchange with a cooling fluid; expanding the compressed second fluorocarbon refrigerant to cool the compressed second fluorocarbon refrigerant, thereby producing an expanded, cooled second fluorocarbon refrigerant; passing said expanded, cooled second fluorocarbon refrigerant to a first heat exchange area; optionally compressing the natural gas; optionally cooling the natural gas by indirect heat exchange with an external cooling fluid; and heat exchanging the natural gas with the expanded, cooled second fluorocarbon refrigerant.
25 . (canceled)
26 . The method of claim 20 , comprising chilling the natural gas in the first fluorocarbon refrigeration system or the second fluorocarbon refrigeration system, or both, using two or more refrigeration stages.
27 . (canceled)
28 . A hydrocarbon processing system for formation of a liquefied natural gas (LNG), comprising:
a first refrigeration system configured to cool a natural gas using a first fluorocarbon refrigerant, wherein the first refrigeration system comprises a plurality of first heat exchangers configured to allow for cooling of the natural gas via an indirect exchange of heat between the natural gas and the first fluorocarbon refrigerant; a second refrigeration system configured to chill the natural gas using a second fluorocarbon refrigerant, wherein the second refrigeration system comprises a plurality of second heat exchangers configured to allow for cooling of the natural gas via an indirect exchange of heat between the natural gas and the second fluorocarbon refrigerant; a nitrogen rejection unit configured to remove nitrogen from the natural gas; and an autorefrigeration system for liquefying the natural gas to form LNG.
29 . (canceled)
30 . The hydrocarbon processing system of claim 28 , wherein the plurality of first heat exchangers comprise evaporators configured to cool the natural gas by at least partially vaporizing the first fluorocarbon refrigerant via a transfer of heat from the natural gas to the first fluorocarbon refrigerant.
31 . The hydrocarbon processing system of claim 28 , wherein the plurality of second heat exchangers comprise evaporators configured to chill the natural gas by at least partially vaporizing the second fluorocarbon refrigerant via a transfer of heat from the natural gas to the second fluorocarbon refrigerant.
32 . A hydrocarbon processing system for formation of a liquefied natural gas (LNG), comprising:
a first fluorocarbon refrigeration system configured to chill a natural gas using a first fluorocarbon refrigerant; a second fluorocarbon refrigeration system configured to further chill the natural gas using a second fluorocarbon refrigerant; a methane autorefrigeration system configured to cool the natural gas to produce LNG, wherein the methane autorefrigeration system comprises a plurality of expansion valves and a plurality of flash drums; and a nitrogen rejection unit upstream of the methane autorefrigeration system.
33 . (canceled)Cited by (0)
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