RU2017110050A

RU2017110050A - DOUBLE SYSTEM WITH MIXED REFRIGERANT

Info

Publication number: RU2017110050A
Application number: RU2017110050A
Authority: RU
Inventors: Дженнифер Лорен СЕТТЕР; Тайсон Дуглас МИЛЛЕР; Дэвид Дуглас МИЛЛЕР
Original assignee: Блэк Энд Витч Холдинг Компани
Priority date: 2014-08-29
Filing date: 2015-08-04
Publication date: 2018-10-01
Also published as: AR101410A1; CN106196881A; AP2017009785A0; RU2017110050A3; MX2017002441A; US20160061518A1; WO2016032701A1; AU2015307118A1; BR112017003560A2; AU2015307118B2; SK262017A3; RU2700112C2; CO2017002295A2; CA2959140A1

Claims

1. A method of liquefying a hydrocarbon-containing gas, the method includes:

(a) introducing a fully condensed first mixed refrigerant, a compressed second mixed refrigerant, and a hydrocarbon-containing gas containing feed stream into the first cooling system;

(b) expanding at least a portion of the fully condensed first mixed refrigerant to form an expanded first mixed refrigerant, wherein the fully condensed first mixed refrigerant is not subjected to phase separation prior to or after the expansion step;

(c) cooling at least a portion of the feed stream and the compressed second mixed refrigerant in the first cooling system by indirect heat exchange with the expanded first mixed refrigerant to form a first cooled feed stream and a fully condensed second mixed refrigerant;

(d) expanding at least a portion of the fully condensed second mixed refrigerant to form an expanded second mixed refrigerant, wherein the fully condensed second mixed refrigerant is not subjected to phase separation prior to or after the expansion step;

(e) cooling at least a portion of the first chilled feed stream in a second cooling system by indirect heat exchange with the expanded second mixed refrigerant to form a second chilled feed stream;

(f) expanding at least a portion of a first cooled feed stream or a second cooled feed stream in a turboexpander to form an expanded feed stream;

(g) separating at least a portion of the expanded feed stream in the separator to form a vapor head fraction and a liquid bottom fraction;

(h) cooling at least a portion of the vapor head fraction in the first cooling system or second cooling system; and

(i) activating the compressor with a turboexpander.

2. The method according to claim 1, further comprising supercooling at least a portion of the fully condensed first mixed refrigerant in step (c) to form a supercooled first mixed refrigerant, wherein the completely condensed first mixed refrigerant in step (b) contains a supercooled first mixed refrigerant.

3. The method according to claim 1, further comprising supercooling at least a portion of the fully condensed second mixed refrigerant in step (e) to form a supercooled second mixed refrigerant, wherein the completely condensed second mixed refrigerant in step (d) contains supercooled second mixed refrigerant.

4. The method according to claim 1, in which the first mixed refrigerant contains at least two compounds selected from the group consisting of hydrocarbons containing from 2 to 4 carbon atoms.

5. The method according to claim 1, in which the second mixed refrigerant contains at least two compounds selected from the group consisting of nitrogen and hydrocarbons containing from 1 to 3 carbon atoms.

6. The method according to claim 1, wherein the first cooled feed stream expands during expansion in step (f), wherein the vapor head fraction is cooled in the first cooling system.

7. The method according to claim 1, wherein the second cooled feed stream expands during expansion in step (f), wherein the vapor head fraction is cooled in a second cooling system.

8. The method of claim 1, wherein the compressor compresses at least a portion of the expanded first mixed refrigerant after cooling in step (c).

9. The method according to claim 1, wherein the compressor compresses at least a portion of the expanded second mixed refrigerant after cooling in step (e).

10. The method according to claim 1, wherein the compressor compresses at least a portion of the vapor head fraction before cooling in step (h).

11. A method of liquefying a hydrocarbon-containing gas, comprising:

(b) expanding at least a portion of the fully condensed first mixed refrigerant to form an expanded first mixed refrigerant;

(c) cooling at least a portion of the feed stream and the compressed second mixed refrigerant in the first cooling system by indirect heat exchange with the expanded first mixed refrigerant to form a cooled feed stream and a fully condensed second mixed refrigerant;

(d) expanding at least a portion of the fully condensed second mixed refrigerant to form an expanded second mixed refrigerant;

(e) cooling at least a portion of the cooled feed stream in the second cooling system by indirect heat exchange with the expanded second mixed refrigerant to form a second cooled feed stream;

(f) separating at least a portion of the second cooled feed stream in a separator to form a vapor head fraction and a liquid bottom fraction; and

(g) cooling at least a portion of the vapor head fraction in the first cooling system or second cooling system.

12. The method according to claim 11, further comprising supercooling at least a portion of the fully condensed first mixed refrigerant in step (c) to form a supercooled first mixed refrigerant, wherein the completely condensed first mixed refrigerant in step (b) comprises a supercooled first mixed refrigerant.

13. The method according to claim 11, further comprising supercooling at least a portion of the fully condensed second mixed refrigerant in step (e) to form a supercooled second mixed refrigerant, wherein the fully condensed second mixed refrigerant in step (d) comprises a supercooled second mixed refrigerant.

14. The method according to claim 11, further comprising expanding at least a portion of the second cooled feed stream in a turboexpander to form an expanded feed stream, wherein the expanded feed stream is a second cooled feed stream during separation in step (f).

15. The method according to 14, further comprising using a compressor at least partially driven by a turboexpander, the compressor at least partially compressing the first mixed refrigerant, second mixed refrigerant or vapor head fraction.

16. The method according to claim 11, cooling at least a portion of the steam head fraction in the second cooling system.

17. A system for liquefying a hydrocarbon-containing gas, the system comprises:

(a) a first cooling system comprising a first cooling zone disposed therein, wherein the first cooling zone is configured to cool a feed stream containing a hydrocarbon-containing gas by indirect heat exchange with a first mixed refrigerant to form a first cooled feed stream;

(b) a first closed mixed cooling circuit at least partially located in the first cooling system, wherein the first closed mixed cooling circuit contains a first mixed refrigerant, wherein the first closed mixed cooling circuit does not contain a phase separator;

(c) a second cooling system in fluid communication with the first cooling system, the second cooling system comprising a second cooling zone disposed therein, the second cooling zone being configured to cool the first cooled feed stream by indirect heat exchange with the second mixed refrigerant to form a second cooled feed stream;

(d) a second closed mixed cooling circuit at least partially located in the second cooling system, wherein the second closed mixed cooling circuit contains a second mixed refrigerant, wherein the second closed mixed cooling circuit does not contain a phase separator;

(e) a turbo expander in fluid communication with a first cooling system or a second cooling system, wherein the turbo expander is configured to expand the first chilled feed stream or the second chilled feed stream into the expanded stream;

(f) a separator in fluid communication with a turboexpander, the separator being configured to separate the expanded stream into a vapor head fraction and a liquid bottom fraction;

(g) a pipeline for returning at least a portion of the vapor head fraction to the first cooling system or second cooling system; and

(h) a compressor at least partially driven by operation obtained from a turboexpander, wherein the compressor is configured to at least partially compress the first mixed refrigerant, second mixed refrigerant, or vapor head fraction.

18. The system of claim 17, wherein the turbo expander is in fluid communication with the first cooling system, and the pipeline returns at least a portion of the vapor head fraction to the first cooling system.

19. The system of claim 17, wherein the turbo expander is in fluid communication with the second cooling system, and the pipeline returns at least a portion of the vapor head fraction to the second cooling system.

20. The system of claim 17, wherein the second cooling zone is configured to supercool the second mixed refrigerant.