RU2016102464A - SYSTEMS AND METHODS FOR PRODUCING DIMETHYL SULFIDE FROM ACID GAS - Google Patents

Claims (39)

1. A method comprising: separating methane and separating hydrogen sulfide from acid gas containing methane and hydrogen sulfide; obtaining carbon monoxide and hydrogen from at least a portion of the separated methane; obtaining methanol from at least a portion of the obtained carbon monoxide and at least a portion of the obtained hydrogen; obtaining dimethyl sulfide from at least a portion of the obtained methanol and at least a portion of the separated hydrogen sulfide; obtaining a composition for the extraction of oil, which contains at least 75 mol. % dimethyl sulfide, from at least a portion of the obtained dimethyl sulfide; the introduction of the specified composition for oil recovery in the oil reservoir containing oil; contacting said composition for oil recovery with oil in the oil reservoir; and after contacting said composition for extracting oil with oil in an oil reservoir, producing a fluid from said oil reservoir, wherein the produced fluid contains at least a portion of the oil from the oil reservoir. 2. The method of claim 1, wherein the produced fluid also comprises acid gas. 3. The method according to p. 2, further comprising: oil recovery and acid gas evolution from the produced fluid, with at least a part of the acid gas emitted being part of the acid gas separated into methane and hydrogen sulfide. 4. The method according to claim 1, in which the produced fluid also contains dimethyl sulfide. 5. The method according to p. 4, further comprising: oil recovery and dimethyl sulfide separation from the produced fluid; and obtaining at least part of the specified composition for oil recovery using dimethyl sulfide isolated from the produced fluid. 6. The method according to claim 1, further comprising: oil separation from the produced fluid, while the oil has a viscosity of more than 350 cP; and mixing dimethyl sulfide with oil isolated from the produced fluid in an amount effective to reduce the viscosity of the mixture to less than 350 cP. 7. The method of claim 1, wherein said dimethyl sulfide is prepared at a well site, wherein said oil recovery composition is injected into the oil reservoir. 8. The method of claim 1, wherein said oil recovery composition is injected into the oil formation by injection through a first well extending into the oil formation. 9. The method according to p. 8, in which the fluid containing oil is produced from the oil reservoir through the specified first well. 10. The method of claim 8, wherein the fluid containing oil is produced from the oil reservoir through a second well extending into the oil reservoir. 11. The method according to any one of paragraphs. 1-10, in which the oil reservoir is an underground reservoir located at a depth of at least 75 m below the surface of the earth. 12. A system comprising: a first separator designed and configured to receive acid gas containing methane and hydrogen sulfide, said first separator being designed and configured to separate methane and hydrogen sulfide from said acid gas; a methane reactor operably fluidly coupled to said first separator for receiving at least a portion of the separated methane from the first separator, said methane reactor being designed and configured to produce carbon monoxide and hydrogen from the methane fed thereto; a methanol reactor operably fluidly coupled to said methane reactor for receiving carbon monoxide and hydrogen from a methane reactor, said methanol reactor being designed and configured to produce methanol from carbon monoxide and hydrogen entering it; a dimethyl sulfide reactor operably fluidly coupled to said methanol reactor for receiving methanol from a methanol reactor and operably fluidly coupled to said first separator for receiving hydrogen sulfide from a first separator, said dimethyl sulfide reactor being designed and configured to produce dimethyl sulfide from methanol and hydrogen sulfide; an injection device operably fluidly coupled to said dimethyl sulfide reactor for receiving dimethyl sulfide from a dimethyl sulfide reactor, said injection device being designed and configured to introduce an oil recovery composition containing dimethyl sulfide obtained from said dimethyl sulfide reactor into an oil reservoir; a producing device that is designed and configured to produce a fluid containing oil from said oil reservoir. 13. The system of claim 12, wherein said oil reservoir also contains acid gas containing methane and hydrogen sulfide, and in which the produced fluid also contains acid gas containing methane and hydrogen sulfide. 14. The system of claim 13 further comprising: a second separator operably fluidly coupled to said producing device for receiving produced fluid from the producing device, said second separator being designed and configured to separate the produced fluid into acid gas and oil; wherein said second separator is fluidly coupled to said first separator, and at least a portion of the acid gas separated in the second separator is supplied to the first separator. 15. The system of claim 14, wherein the produced fluid also comprises dimethyl sulfide, said second separator is designed and configured to separate dimethyl sulfide from the produced fluid, said second separator being operably fluidly coupled to said injection device for supplying the separated dimethyl sulfide to an injection device, and wherein said injection device is designed and configured to introduce separated dimethyl sulfide into said oil-bearing medium flipper. 16. The system according to p. 12 or according to any one of paragraphs. 13-15, in which the specified injection device is located on the first well, extending into the oil reservoir. 17. The system of claim 16, wherein said producing device is located on a first well extending into the oil reservoir. 18. The system of claim 16, wherein said producing device is located on a second well extending into the oil reservoir.