Simultaneous crude oil dehydration, desalting, sweetening, and stabilization

What is claimed is: 1. An integrated gas oil separation plant system, the system comprising: a crude oil inlet feed stream; a high pressure production trap (HPPT), where the HPPT is fluidly coupled to the crude oil inlet feed stream, and where the HPPT comprises an inlet mixing device operable to thoroughly mix the crude oil inlet feed stream with an additional fluid, a plurality of insulated electrostatic electrodes, and a weir; a low pressure production trap (LPPT), where the LPPT is fluidly coupled to the HPPT, and where the LPPT comprises an inlet mixing device operable to thoroughly mix an LPPT inlet feed stream, a plurality of insulated electrostatic electrodes, and a weir; a low pressure degassing tank (LPDT), where the LPDT is fluidly coupled to the LPPT, and where the LPDT comprises an inlet mixing device operable to thoroughly mix an LPDT inlet feed stream, a plurality of insulated electrostatic electrodes, and a weir; a first heat exchanger, where the first heat exchanger is fluidly disposed between the HPPT and LPPT and is fluidly coupled to both the HPPT and LPPT, and where the first heat exchanger is operable to heat the LPPT inlet feed stream; a second heat exchanger, where the second heat exchanger is fluidly disposed between the LPPT and the LPDT and is fluidly coupled to both the LPPT and LPDT, and where the second heat exchanger is operable to heat the LPDT inlet feed stream; a LPPT recycle water stream, where the LPPT recycle water stream is operable to supply recycle water from the LPPT to be mixed with the crude oil inlet feed stream; a fresh wash water supply stream, where the fresh wash water supply stream is operable to supply fresh water to an output stream of the LPPT to form the LPDT inlet feed stream; and a LPDT recycle water stream, where the LPDT recycle water stream is operable to supply recycle water from the LPDT to an output stream from the HPPT to form the LPPT inlet feed stream. 2. The system according to claim 1 , further comprising a stripping gas stream inlet fluidly coupled with the LPDT, the stripping gas stream inlet operable to supply steam, in addition to or alternative to a low concentration H 2 S stripping gas, to the LPDT. 3. The system according to claim 2 , further comprising a gas compression plant, where the gas compression plant comprises a high pressure compressor operable to process high pressure off-gas from the HPPT, a low pressure compressor operable to process low pressure off-gas from the LPPT, and an atmospheric pressure compressor operable to process atmospheric-pressure off-gas from the LPDT. 4. The system according to claim 3 , further comprising an oil/water separator device operable to accept an oily water output stream from the HPPT, operable to separate oil from water, and operable to recycle oil to the LPDT. 5. The system according to claim 4 , further comprising at least one mixing valve preceding the HPPT, at least one mixing valve preceding the first heat exchanger, and at least one mixing valve preceding the second heat exchanger, where the mixing valves are operable to mix crude oil and water. 6. The system according to claim 5 , where the system is operable to refine crude oil in the crude oil inlet feed stream to produce a refined crude oil product safe for storage and shipment meeting the following specifications: (1) a salt concentration of not more than about 10 pound (lbs.) of salt/1000 barrels (PTB); (2) basic sediment and water (BSW) of not more than about 0.3 volume percent (V%); (3) H 2 S concentration of less than about 60 ppm; and (4) a maximum RVP of about 7 pounds per square inch absolute (psia) and a maximum true vapor pressure (TVP) of about 13.5 psia at 130 degrees Fahrenheit (° F.). 7. The system according to claim 5 , further comprising an inline gas separator and a second stripping gas stream, the inline gas separator and the second stripping gas stream fluidly disposed between the second heat exchanger and the LPDT and fluidly coupled with the LPDT inlet feed stream, where the inline gas separator is operable to remove atmospheric off-gas to be processed in the gas compression plant, and where the second stripping gas stream is operable to reduce the H 2 S content of the LPDT inlet feed stream. 8. The system according to claim 7 , further comprising a supplementary separator device fluidly coupled to an output stream of the LPDT, the supplementary separator device fluidly coupled to a third stripping gas stream, and the supplementary separator device operable to allow the third stripping gas stream to further reduce H 2 S content in the output stream of the LPDT. 9. The system according to claim 5 , further comprising a cold stabilizer, where the cold stabilizer is fluidly coupled to a second stripping gas stream, the second stripping gas stream operable to reduce H 2 S content of crude oil in the cold stabilizer, and where the cold stabilizer is operable to remove volatile hydrocarbons from crude oil to produce a stable, non-volatile finalized crude oil product suitable for storage and shipping. 10. The system according to claim 9 , where the cold stabilizer has about 16 actual stages. 11. The system according to claim 5 , further comprising a third heat exchanger fluidly coupled to the crude oil inlet feed stream and the HPPT, where the third heat exchanger provides heat to the crude oil inlet feed stream, and at least a portion of the heat arises from a finished crude oil product stream. 12. The system according to claim 11 , further comprising an inline gas separator fluidly disposed between and fluidly coupled to the at least one mixing valve preceding the HPPT and the third heat exchanger, the inline gas separator operable to separate crude oil from high pressure off-gas, where the gas compression plant is operable to process high-pressure off-gas from the inline gas separator. 13. The system according to claim 12 , further comprising a second inline gas separator fluidly disposed between and coupled to the second heat exchanger and the LPDT, the second inline gas separator operable to remove atmospheric off-gas from the LPDT inlet feed stream for processing in the gas compression plant. 14. The system according to claim 13 , further comprising a second stripping gas stream fluidly coupled to the LPDT inlet feed stream, a supplementary separator device fluidly coupled to an output stream of the LPDT, the supplementary separator device fluidly coupled to a third stripping gas stream, and the supplementary separator device operable to allow the third stripping gas stream to further reduce H 2 S content in the output stream of the LPDT. 15. The system according to claim 1 , where the HPPT is operable to remove about 98% of emulsified water present in crude oil from the crude oil inlet feed stream. 16. The system according to claim 1 , where operating pressure within the HPPT is greater than the operating pressure within the LPPT, and where the operating pressure within the LPPT is greater than the operating pressure in the LPDT. 17. The system according to claim 1 , where the system is operable to dehydrate, desalt, sweeten, and stabilize crude oil to produce crude oil safe for storage and shipment without any dehydrating or desalting units other than the HPPT, LPPT, and LPDT. 18. The system according to claim 1 , where at least one inlet mixing device comprises a cyclonic separator. 19. An integrated gas oil separation method, the method comprising the steps of: separating, under high pressure, high pressure off-gas and oily water from crude oil, w