Process control systems and methods for simultaneous crude oil dehydration, desalting, sweetening, and stabilization

What is claimed is: 1. A system for controlling desalting and dehydration of crude oil, the system comprising: a crude oil separation unit, the crude oil separation unit comprising a crude oil inlet, insulated electrostatic electrodes, a water outlet, an oil-water emulsion outlet, and a dried, desalted crude oil product outlet; a total dissolved solids (TDS) content monitor at the water outlet; a basic sediment and water (BS&W) content monitor at the dried, desalted crude oil product outlet; and a pounds per thousand barrels (PTB) salt content and volumetric water content controller in electronic communication with the TDS content monitor and the BS&W content monitor, wherein the PTB salt content and volumetric water content controller controls a process input to the system based on a comparison between the PTB salt content and volumetric water content of a dried, desalted processed crude oil stream at the dried, desalted crude oil product outlet versus a maximum set value for PTB salt content and volumetric water content of the dried, desalted processed crude oil stream, where the controlled process input is selected from the group consisting of chemical demulsifier injection rate; wash water injection rate; inlet crude oil heating; a pressure drop for mixing preceding the crude oil separation unit; current supply to the crude oil separation unit; inlet crude oil flow rate for processing; outlet crude oil flow rate of the dried, desalted crude oil product outlet; crude oil separation unit residence time; crude oil separation unit emulsion level; crude oil separation unit water level; and combinations thereof. 2. The system according to claim 1 , wherein the PTB salt content and volumetric water content controller applies Equation 1 with on-line, real-time TDS measurements from the TDS content monitor and on-line, real-time BS&W measurements from the BS&W content monitor. 3. The system according to claim 1 , further comprising a current monitor and a voltage monitor for the insulated electrostatic electrodes, the current monitor and voltage monitor in electronic communication with a current controller, where the current controller is operable to control removal of water via the water outlet and removal of an oil-water emulsion via the oil-water emulsion outlet. 4. The system according to claim 3 , the system further comprising a flow controller, the flow controller in electronic communication with the current controller and in electronic communication with a level controller of the crude oil separation unit, the level controller operable to measure a water level or oil-water emulsion level in the crude oil separation unit, and the flow controller operable to control water drained from the system via the water outlet. 5. The system according to claim 4 , wherein when electric current supplied to the insulated electrostatic electrodes is at between 0% to about 50% of a set, maximum current value, removal of the oil-water emulsion proximate an oil-water interface of the crude oil separation unit proceeds for recycle of the oil-water emulsion to the crude oil separation unit. 6. The system according to claim 5 , wherein when electric current supplied to the insulated electrostatic electrodes is at between about 50% to about 100% of a set, maximum current value, removal of water from the system via a water drain following the water outlet proceeds. 7. The system according to claim 1 , wherein the maximum set value for PTB salt content is about 10 PTB and the maximum set value for volumetric water content is about 0.3 volume percent for the dried, desalted crude oil product stream. 8. The system according to claim 1 , where the system includes a controller selected from the group consisting of: a distributed control system; a multivariable controller; a multivariable predictive controller; and combinations thereof. 9. The system according to claim 8 , where the controller is in one-way or two-way electronic communication with any one of or any combination of a chemical demulsifier injection control valve, a water content monitor for inlet crude oil, a total dissolved solids content monitor for inlet crude oil, a wash water injection control valve, a temperature indicator and control for crude oil inlet heating, a differential pressure indicator and control for control of a mixing valve for inlet crude oil, a current monitor for the insulated electrostatic electrodes, a voltage monitor for the insulated electrostatic electrodes, a level indicator and controller for a water level or oil-water emulsion level in the crude oil separation unit, the TDS content monitor at the water outlet, the BS&W content monitor at the dried, desalted crude oil product outlet, the PTB salt content and volumetric water content controller, a flow controller for draining water at the water outlet, a current controller in electronic communication with the current monitor for the insulated electrostatic electrodes and the voltage monitor for the insulated electrostatic electrodes, a current monitor for an inline electrostatic emulsion breaker, a voltage monitor for the inline electrostatic emulsion breaker, a current controller in electronic communication with the current monitor for the inline electrostatic emulsion breaker and the voltage monitor for the inline electrostatic emulsion breaker, and a BS&W content monitor at the oil-water emulsion outlet. 10. The system according to claim 1 , further comprising an inline electrostatic emulsion breaker at the oil-water emulsion outlet, the inline electrostatic emulsion breaker comprising a current monitor and voltage monitor in electronic communication with an inline electrostatic emulsion breaker current controller, the inline electrostatic emulsion breaker current controller operable to control an inlet valve to the inline electrostatic emulsion breaker. 11. The system according to claim 10 , wherein when electric current supplied to an electric grid of the inline electrostatic emulsion breaker is at between 0% to about 50% of a set, maximum current value, removal of an oil-water emulsion proximate the oil-water emulsion outlet of the crude oil separation unit proceeds for recycle of the oil-water emulsion to the crude oil separation unit through the inline electrostatic emulsion breaker. 12. The system according to claim 10 , wherein when electric current supplied to the electric grid of the inline electrostatic emulsion breaker is at between about 50% to about 100% of a set, maximum current value, removal of water via a water drain of the crude oil separation unit following the water outlet proceeds. 13. The system according to claim 10 , further comprising a BS&W content monitor at an inlet of the inline electrostatic emulsion breaker. 14. The system according to claim 1 , where the crude oil separation unit comprises a first stage desalter and a second stage desalter. 15. The system according to claim 14 , where the first stage desalter recycles an emulsion layer to a first inline electrostatic emulsion breaker and where the second stage desalter recycles an emulsion layer to a second inline electrostatic emulsion breaker.