Method and system for methane separation and purification from a biogas
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-053/02
B01D-050/00
출원번호
US-0097843
(2011-04-29)
등록번호
US-8568512
(2013-10-29)
발명자
/ 주소
Siegel, Stanley M.
Siegel, Dennis C.
출원인 / 주소
A.R.C. Technologies Corporation
대리인 / 주소
Litman, Richard C
인용정보
피인용 횟수 :
0인용 특허 :
15
초록▼
The method and system for methane separation and purification from a biogas includes collecting a raw Biogas gas stream having methane, carbon dioxide, water, sulfur compounds and non-methane organic compound (NMOC) constituents. The Biogas stream is fed into the intake of a liquid sulfur scrubber o
The method and system for methane separation and purification from a biogas includes collecting a raw Biogas gas stream having methane, carbon dioxide, water, sulfur compounds and non-methane organic compound (NMOC) constituents. The Biogas stream is fed into the intake of a liquid sulfur scrubber or a sulfur adsorber unit where the Biogas is separated into a main gas stream routed downstream in the system and a sulfur compounds stream removed from the system. The main gas stream is then processed by an NMOC absorber and further downstream, by an NMOC adsorber. NMOC produced by both NMOC processes is liquefied, removed from the system and stored. Upstream from the NMOC processes, the main gas stream is processed by at least one CO2, N2, O2 gas separation unit that produces a usable product stream of enriched methane gas, and an off-gas stream, which a VPSAU processes for venting and recycling.
대표청구항▼
1. A method for methane separation and purification from a biogas, comprising the steps of: collecting a raw Biogas stream, the raw Biogas stream including at least methane, carbon dioxide, water, hydrogen sulfide, and non-methane organic compounds (NMOC); performing a raw Biogas stream separation p
1. A method for methane separation and purification from a biogas, comprising the steps of: collecting a raw Biogas stream, the raw Biogas stream including at least methane, carbon dioxide, water, hydrogen sulfide, and non-methane organic compounds (NMOC); performing a raw Biogas stream separation procedure in which the raw Biogas stream is separated into a sulfur compounds stream and a main gas stream, the sulfur compounds stream being removed from further processing, the main gas stream being purified from the hydrogen sulfide;adsorbing a non-methane organic compounds (NMOC) liquid stream from the main gas stream, the NMOC liquid stream being removed from further processing, the main gas stream being substantially purified from the non-methane organic compounds;performing a main gas stream separation procedure in which the main gas stream is separated into an off-gas stream substantially composed of carbon dioxide, nitrogen, and oxygen gas, and a product stream composed substantially of purified methane gas;performing an off-gas stream adsorbing procedure, thereby forming a vent gas stream and a recycle stream;venting the vent gas stream into the atmosphere without flaring the vent gas stream; andmixing the recycle stream with the main gas stream after the step of performing a raw Biogas stream separation procedure and before the step of absorbing a first non-methane organic compounds (NMOC) liquid stream. 2. The method for methane separation and purification from a biogas according to claim 1, wherein said step of performing a main gas stream separation procedure further comprises the steps of producing a recycle stream and feeding the recycle stream into the main gas stream after the step of performing a raw Biogas stream separation procedure and before the step of absorbing a first non-methane organic compounds (NMOC) liquid stream. 3. The method for methane separation and purification from a biogas according to claim 1, further comprising the step of absorbing a second non-methane organic compounds (NMOC) liquid stream from the main gas stream prior to said step of performing a main gas stream separation procedure, the second NMOC liquid stream being removed from further processing, the main gas stream being partially purified by removal of the absorbed non-methane organic compounds. 4. The method for methane separation and purification from a biogas according to claim 3, wherein said NMOC absorbing step further comprises the steps of: utilizing a sponge solution to absorb the NMOC; andthermodynamically regenerating the sponge solution as a function of a vapor point pressure of the NMOC stream and the sponge solution. 5. The method for methane separation and purification from a biogas according to claim 1, wherein said step of performing an off-gas stream adsorbing procedure further comprises the step of forcing said off-gas stream to come in contact with nanoporous and or microporous adsorbent materials selective for methane and non-methane organic compounds (NMOC) and nonselective for carbon dioxide, oxygen, and nitrogen. 6. The method for methane separation and purification from a biogas according to claim 1, wherein said raw Biogas stream separation procedure further comprises the step of using a solid adsorption material to capture the hydrogen sulfide (H2S) for removal from the raw Biogas stream. 7. The method for methane separation and purification from a biogas according to claim 1, wherein said raw Biogas stream separation procedure further comprises the step of using aerobic bacteria action to oxidize inorganic sulfur compounds, including hydrogen sulfide (H2S), to elemental sulfur or sulfates for removal from the raw Biogas stream. 8. The method for methane separation and purification from a biogas according to claim 1, wherein said step of adsorbing a non-methane organic compounds (NMOC) liquid stream further comprises the step of using adhesion of molecules of the NMOCs to surfaces and pores of selective adsorbent materials. 9. The method for methane separation and purification from a biogas according to claim 8, further comprising the step of regenerating said selective adsorbent materials by exposing said selective adsorbent materials to a carrier gas with temperature and pressure control in order to reverse adhesion of the NMOC molecules to said selective adsorbent materials, thereby creating a mixed NMOC gas carrier stream. 10. The method for methane separation and purification from a biogas according to claim 9, further comprising the step of condensing the NMOC out of the mixed NMOC gas carrier stream in order to form a NMOC liquid stream. 11. A system for methane separation and purification from a biogas stream, comprising: means for collecting a raw Biogas stream, the raw Biogas stream including methane, carbon dioxide, water, hydrogen sulfide, and non-methane organic compounds (NMOC);means for processing the raw biogas stream to send a portion thereof downstream as a main gas stream for further processing;means for separating the non-methane organic compounds (NMOC) from the main gas stream;at least one CO2, N2, O2 gas separation unit accepting the main gas stream downstream from the means for separating the non-methane organic compounds, the at least one CO2, N2, O2 gas separation unit producing a methane-enriched product stream and a CO2, N2, O2 gas-enriched off gas stream;a vent pressure swing adsorption unit (VPSAU) accepting the CO2, N2, O2 gas-enriched off gas stream, the VPSAU producing a vent gas stream and a VPSAU recycle stream;means for venting the vent gas stream into the atmosphere without flaring the vent gas stream; andmeans for recycling the VPSAU recycle stream upstream of the VPSAU. 12. The system for methane separation and purification according to claim 11, further comprising a liquid sulfur scrubber disposed between said raw biogas stream and said main gas stream. 13. The system for methane separation and purification according to claim 11, further comprising an aerobic bacteria sulfur oxidizer disposed between the raw biogas stream and the main gas stream. 14. The system for methane separation and purification according to claim 11, wherein said means for separating said non-methane organic compounds (NMOC) from said main gas stream further comprises: means for utilizing a sponge solution to absorb the NMOC; andmeans for thermodynamically regenerating said sponge solution as a function of a vapor point pressure of the NMOC stream and the sponge solution. 15. The system for methane separation and purification according to claim 11, wherein said vent pressure swing adsorption unit (VPSAU) further comprises adsorbent materials selective for methane and non-methane organic compounds (NMOC) and nonselective for carbon dioxide, oxygen, and nitrogen. 16. The system for methane separation and purification according to claim 11, wherein said means for separating the non-methane organic compounds (NMOC) from the main gas stream further comprises means for adsorbing the NMOC using adhesion of molecules of the NMOC to surfaces and pores of selective adsorbent materials. 17. The system for methane separation and purification according to claim 16, wherein said means for adsorbing the NMOC further comprises means for regenerating said selective adsorbent materials by exposing said selective adsorbent materials to a carrier gas with temperature and pressure control, thereby reversing adhesion of the NMOC in order to form a mixed NMOC gas carrier stream. 18. The system for methane separation and purification according to claim 17, wherein said means for adsorbing the NMOC further comprises means for condensing the NMOC out of the mixed NMOC gas carrier stream. 19. The system for methane separation and purification according to claim 11, wherein said at least one CO2, N2, O2 gas separation unit further comprises means for producing a recycle stream and for feeding the recycle stream back upstream of said at least one CO2, N2, O2 gas separation unit.
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이 특허에 인용된 특허 (15)
Lagree Dale A. (Williamsville NY) Thompson David R. (Grand Island NY), Dual product pressure swing adsorption and membrane operations.
Rao Madhukar B. (Allentown PA) Sircar Shivaji (Wescosville PA) Abrardo Joseph M. (Schnecksville PA) Baade William F. (Breinigsville PA), Hydrocarbon fractionation by adsorbent membranes.
Palumbo, David J., Method for processing landfill and other stranded gas containing commercial quantities of methane and contaminated by carbon dioxide, nitrogen and oxygen into a pipeline or vehicle quality natural gas product.
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