Systems and methods to debottleneck an integrated oil and gas processing plant with sour gas injection

What is claimed is: 1. A system for increasing oil production in an integrated oil and gas production plant including hydrogen sulfide removal and sour-gas injection, comprising: a. a series of a first, second and third oil-gas separators in sequence for separating an oil-gas mixture into oil and gas phases at decreasing pressures; b. a crude stabilizer for receiving an oil phase from the third oil-gas separator and forming a stabilized crude and an overhead gas stream; c. a low-pressure compressor for compressing the overhead gas stream combined with the gas phase from the third oil-gas separator to form a medium pressure stream; d. a first hydrogen sulfide-selective membrane to remove hydrogen sulfide from the medium pressure stream combined with the gas phase from the second oil-gas separator to form a first permeate stream enriched in hydrogen sulfide and a first retentate stream depleted in hydrogen sulfide and enriched in hydrocarbon gases; e. a medium-pressure amine unit for removing hydrogen sulfide from the first retentate stream to form a medium pressure stream depleted in H 2 S and a low-pressure acid-gas stream enriched in H 2 S; f. a medium-pressure compressor for compressing the medium pressure stream depleted in H 2 S to form a high-pressure stream; g. a high-pressure amine unit for removing hydrogen sulfide from the high-pressure stream combined with the gas phase from the first oil-gas separator to form a sweet gas stream depleted in H 2 S and a low-pressure acid stream enriched in H 2 S; h. a Claus unit for generating sulfur from the acid-gas streams enriched in H 2 S that are generated from the medium-pressure and high-pressure amine plants; i. a permeate compressor for compressing the first permeate stream to form a compressed first permeate stream, and j. piping for delivering the compressed first permeate stream to a plant comprising a sour gas injection unit for injecting the compressed first permeate stream into a subterranean formation. 2. A system for increasing oil production in an integrated oil and gas production plant including hydrogen sulfide removal and sour-gas injection, comprising: a. a series of a first, second and third oil-gas separators in sequence for separating an oil-gas mixture into oil and gas phases at decreasing pressures; b. a crude stabilizer for receiving an oil phase from the third oil-gas separator and forming a stabilized crude and an overhead gas stream; c. a low-pressure compressor for compressing the overhead gas stream combined with the gas phase from the third oil-gas separator to form a medium pressure stream; d. a first hydrogen sulfide-selective membrane to remove hydrogen sulfide from the medium-pressure stream combined with the gas phase from the second oil-gas separator to form a first permeate stream enriched in hydrogen sulfide and a first retentate stream depleted in hydrogen sulfide and enriched in hydrocarbon gases; e. a medium-pressure amine unit for removing hydrogen sulfide from the first retentate stream to form a medium-pressure stream depleted in H 2 S and a low-pressure acid-gas stream enriched in H 2 S; f. a medium-pressure compressor for compressing the medium-pressure stream depleted in H 2 S to form a high-pressure stream; g. a second hydrogen sulfide-selective membrane to remove hydrogen sulfide from the high-pressure stream combined with the gas phase from the first oil-gas separator to form a second permeate stream enriched in hydrogen sulfide and a second retentate stream depleted in hydrogen sulfide and enriched in hydrocarbon gases; h. a high-pressure amine unit for removing hydrogen sulfide from the second retentate stream to form a sweet gas stream and an acid-gas stream; i. a Claus unit for generating sulfur from the low-pressure, acid-gas stream enriched in H 2 S generated from the medium- and high-pressure amine units; j. a permeate compressor for compressing the first permeate stream and the second permeate stream to form a compressed injection stream; and k. piping for delivering the compressed injection stream to a plant comprising a sour gas injection unit for injecting the compressed injection stream into a subterranean formation. 3. A method for increasing oil production in an integrated oil and gas production plant including hydrogen sulfide removal and sour-gas injection, comprising: a. separating an oil-gas mixture into oil and gas phases in a series of a first, second and third oil-gas separators in sequence at decreasing pressures; b. receiving an oil phase from the third oil-gas separator and forming a stabilized crude and an overhead gas stream in a crude stabilizer; c. compressing the overhead gas stream combined with the gas phase from the third oil-gas separator to form a medium-pressure stream in a low-pressure compressor; d. removing hydrogen sulfide from the medium-pressure stream combined with the gas phase from the second oil-gas separator in a hydrogen sulfide-selective membrane to form a permeate stream enriched in hydrogen sulfide and a retentate stream depleted in hydrogen sulfide and enriched in hydrocarbon gases; e. removing hydrogen sulfide from the retentate stream in a medium-pressure amine unit to form a medium-pressure stream depleted in H 2 S and a low-pressure acid-gas stream enriched in H 2 S; f. compressing the medium-pressure stream depleted in H 2 S in a medium-pressure compressor to form a high-pressure stream; g. removing hydrogen sulfide from the high-pressure stream combined with the gas phase from the first oil-gas separator in a high-pressure amine unit to form a sweet gas stream and a low-pressure stream enriched in H 2 S; h. processing the low-pressure acid gas streams enriched in H 2 S from the medium-pressure and high-pressure amine units and producing elemental sulfur in a Claus unit; i. compressing the permeate stream in a permeate compressor to form a compressed permeate stream; and j. delivering the compressed permeate stream to a plant comprising a sour gas injection unit for injecting a sour gas stream into a subterranean formation. 4. A method for increasing oil production in an integrated oil and gas production plant including hydrogen sulfide removal and sour-gas injection, comprising: a. separating an oil-gas mixture into oil and gas phases in a series of a first, second and third oil-gas separators in sequence at decreasing pressures, b. receiving an oil phase from the third oil-gas separator and forming a stabilized crude and an overhead gas stream in a crude stabilizer; c. compressing the overhead gas stream combined with the gas phase from the third oil-gas separator to form a medium-pressure stream in a low-pressure compressor; d. removing hydrogen sulfide from the medium-pressure stream combined with the gas phase from the second oil-gas separator in a first hydrogen sulfide-selective membrane to form a first permeate stream enriched in hydrogen sulfide and a first retentate stream depleted in hydrogen sulfide and enriched in hydrocarbon gases; e. removing hydrogen sulfide from the first retentate stream in a medium-pressure amine unit to form a medium-pressure stream depleted in H 2 S and a low-pressure acid-gas stream enriched in H 2 S; f. compressing the medium-pressure stream depleted in H 2 S in a medium-pressure compressor to form a high-pressure stream; g. removing hydrogen sulfide from the high-pressure stream combined with the gas phase from the first oil-gas separator in a second hydrogen sulfide-selective membrane to form a second permeate stream enriched in hydrogen sulfide and a second retentate stream depleted in hydrogen sulfide and enriched in hydrocarbon gases; h. removing hydrogen sulfide from the from the second retentate stream in a high-pressure amine unit to form a sweet gas stream and an acid-gas stream; i. processing th