Systems and methods to remove mercaptans from sour gas using membranes

What is claimed is: 1. A system for increasing on-specification production of sales gas in an oil and gas production plant including mercaptan removal, comprising: (a) a molecular sieve dehydration unit comprising at least one vessel in adsorption mode and at least one vessel in regeneration mode for dehydrating a stream of sweet gas; (b) a cooler for cooling a regeneration gas from the molecular sieve dehydration unit to form a cooled stream; (c) a knockout drum to separate the cooled stream into liquid water and a gas stream; (d) a mercaptan-selective membrane to remove mercaptans from the gas stream to form a permeate stream enriched in mercaptans and a retentate stream depleted in mercaptans and enriched in hydrocarbon gases; (e) a fractionation unit for separating a combined gas stream comprising the retentate stream and a stream of dehydrated sweet gas from the molecular sieve dehydration unit into LPG comprising propane and butane and sales gas comprising methane, ethane and some nitrogen and treating the combined gas stream with a caustic treatment to further remove mercaptans from the combined gas stream; and (f) a Claus unit for converting mercaptans from the permeate stream into elemental sulfur. 2. A method for increasing on-specification production of sales gas in an oil and gas production plant including mercaptan removal, comprising: (a) dehydrating a stream of sweet gas in a molecular sieve dehydration unit comprising at least one vessel in adsorption mode and at least one vessel in regeneration mode; (b) cooling a regeneration gas from the molecular sieve dehydration unit to form a cooled stream; (c) separating the cooled stream into liquid water and a gas stream; (d) in a mercaptan-selective membrane, removing mercaptans from the gas stream to form a permeate stream enriched in mercaptans and a retentate stream depleted in mercaptans and enriched in hydrocarbon gases; (e) feeding a combined gas stream comprising the retentate stream and a dehydrated stream of sweet gas from the molecular sieve dehydration unit to a fractionation unit for separation into LPG comprising propane and butane and sales gas comprising methane, ethane and nitrogen and caustic treatment of the combined gas stream to further remove mercaptans from the combined gas stream; and (f) in a Claus unit, converting mercaptans from the permeate stream into elemental sulfur. 3. A method of retrofitting a gas processing plant for processing a gas stream containing from 100 to 10,000 ppm mercaptans, the gas processing plant comprising a molecular sieve dehydration unit comprising at least one vessel in adsorption mode and at least one vessel in regeneration mode for dehydrating a stream of sweet gas; a cooler for cooling a regeneration gas from the molecular sieve dehydration unit to form a cooled stream; a knockout drum to separate the cooled stream into liquid water and a gas stream; and a fractionation unit for separating the gas stream and a stream of sweet gas from the molecular sieve dehydration unit into LPG comprising propane and butane and sales gas comprising methane, ethane and nitrogen and treating the gas stream and the stream of sweet gas from the molecular sieve dehydration unit with a caustic treatment to further remove mercaptans; the method of retrofitting comprising: adding a mercaptan-selective membrane downstream of the knockout drum and upstream of the fractionation unit to remove mercaptans from the gas stream and form a permeate stream enriched in mercaptans and a retentate stream depleted in mercaptans and enriched in hydrocarbon gases; such that a reduced amount of mercaptans is sent to the fractionation unit than in the gas processing plant without the mercaptan-selective membrane.