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Industrial arts for dehydrogenation and denitrogen and de-carbon monoxide from high methane gas and liquefied natural gas production

A carbon monoxide and nitrogen technology, applied in liquefaction, refrigeration, liquefaction, solidification, etc., can solve the problems of pressure swing adsorption and membrane separation with low purity, and achieve the effect of reducing energy consumption and reducing energy consumption

Active Publication Date: 2013-04-10
XINDI ENERGY ENG TECH
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AI Technical Summary

Problems solved by technology

Generally speaking, the separation purity of pressure swing adsorption and membrane separation is low, and there is often a contradiction between product yield and purity. However, there are few reports on the application of low temperature liquefaction separation to the purification of methane-rich gas and the production of liquefied natural gas.

Method used

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  • Industrial arts for dehydrogenation and denitrogen and de-carbon monoxide from high methane gas and liquefied natural gas production
  • Industrial arts for dehydrogenation and denitrogen and de-carbon monoxide from high methane gas and liquefied natural gas production

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Embodiment Construction

[0020] The process of the present invention includes two parts: a low-temperature liquefaction process and a rectification separation process; the low-temperature liquefaction part is completed in a cold box provided by a mixed refrigerant; the rectification separation part adopts a single-tower or double-tower process to remove hydrogen, nitrogen, and carbon monoxide ; The methane-enriched mixed gas containing hydrogen, nitrogen, and carbon monoxide passes through the cold box, rectification tower bottom reboiler, and cold box to liquefy the methane component in turn, and then enters the rectification separation system to remove hydrogen, nitrogen, and carbon monoxide to obtain The content of hydrogen in LNG products is ≤2000ppm, the content of nitrogen is ≤4%, and the content of carbon monoxide is ≤6%.

[0021] The low-temperature liquefaction part is completed in the cold box, and the cooling capacity of the cold box is mainly provided by the mixed refrigerant. Refer to att...

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Abstract

Disclosed is industrial arts for dehydrogenation, denitrogen and de-carbon monoxide from high methane gas and liquefied natural gas production. The industrial arts comprise two parts which are low temperature liquefaction and rectification separation. The low temperature liquefaction part is finished in a cold box through cooling provided by a mixed cryogen. A single tower procedure or a double tower procedure is adopted by the rectification separation part to remove hydrogen, nitrogen and carbon monoxide. Methane component in high methane mixed gas with the hydrogen and the nitrogen is liquefied sequentially through the cold box, rectifying tower bottom reboiler and the cold box, and the high methane mixed gas with the hydrogen and the nitrogen enters into a rectification separation system, and then the hydrogen, the nitrogen and the carbon monoxide are removed. Hydrogen content in obtained liquefied natural gas (LNG) products is less than or equal to 2000 ppm, nitrogen content is less than or equal to 4%, and carbon monoxide content is less than or equal to 6%. The invention further provides a natural gas liquefaction art of the high methane gas with the hydrogen, the nitrogen and the carbon monoxide. The hydrogen, the nitrogen and the carbon monoxide are removed, and meanwhile the LNG with a better separating effect compared with a traditional industrial art is obtained, and process route is advanced. Compared with the traditional industrial art, power consumption of the system can be reduced by 20%.

Description

technical field [0001] The invention provides a process for dehydrogenation, nitrogen and carbon monoxide from methane-rich gas to produce liquefied natural gas. Coal-based synthesis gas, coke oven gas, and methanized coke oven gas contain not only methane, but also nitrogen, hydrogen, and carbon monoxide. In order to obtain liquefied natural gas, they must be removed to a certain extent before they can be used as liquefied natural gas ( LNG) product output. Background technique [0002] Under the pressure of environmental protection and energy cost, the proportion of natural gas as primary energy in various fields of society is gradually increasing, and its application fields have gradually expanded to power generation, automobile gas, industrial gas, urban residential gas, chemical gas, etc. , the market demand is increasing rapidly. The traditional natural gas pipeline supply method is still the mainstream, but due to the limitations of raw material conditions and user ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F25J3/08
CPCF25J3/0219F25J3/0223F25J3/0233F25J3/0252F25J3/0257F25J3/0261F25J2200/40F25J2200/74F25J2210/12F25J2210/14F25J2210/42F25J2215/04F25J2270/12F25J2270/18F25J2270/42F25J2270/66F25J2270/904
Inventor 何振勇蔚龙张生郑忠英傅建青
Owner XINDI ENERGY ENG TECH
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