System to reduce interface emulsion layer formation in an electrostatic dehydrator or desalter vessel through use of a low voltage electrostatic interface emulsion treatment system inside the vessel

The invention claimed is: 1. A system for reducing interface emulsion layer formation when separating the components of an incoming oil-water mixture, the system comprising: a separator vessel including an oil/water interface location including a water/emulsion boundary location; a first set of vertically oriented electrodes located in an upper half of the vessel and connected to a high voltage power source greater than 5 kV; and a second set of electrodes located entirely below the first set and above the water/emulsion boundary location and connected to a low voltage power source in a range of 1 kV to 5 kV, a portion of the second set being within the oil/water interface location. 2. The system of claim 1 , further comprising variable frequency, variable amplitude power electronics in communication with the high voltage power source. 3. The system of claim 2 , wherein the amplitude is modulated. 4. The system of claim 3 , wherein the frequency is modulated. 5. The system of claim 1 , wherein the high voltage power source is no greater than 60 kV. 6. The system of claim 1 , further comprising an outlet at a level of the separator vessel between the first and second set of electrodes. 7. A separator vessel, comprising: a first set of vertically oriented electrodes located in an upper half of the vessel and connected to a high voltage power source greater than 5 kV; a second set of electrodes located entirely below the first set and connected to a low voltage power source in a range of 1 kV to 5 kV; an oil outlet located at a vertical height between the first and second set of electrodes. 8. The separator vessel of claim 7 , further comprising variable frequency, variable amplitude power electronics in communication with the high voltage power source. 9. The separator vessel of claim 8 wherein the amplitude is modulated. 10. The separator vessel of claim 9 wherein the frequency is modulated. 11. The separator vessel of claim 10 , wherein the high voltage power source is no greater than 60 kV. 12. The separator vessel of claim 11 , further comprising an inlet located at a vertical height above the first set of electrodes. 13. The separator vessel of claim 12 , wherein the high voltage power source comprises a rectified transformer. 14. The separator vessel of claim 13 , wherein at least one of the first and the second set of electrodes comprises an electrode grid. 15. A separator vessel, comprising: a first set of vertically oriented electrodes located in an upper half of the vessel and connected to a high voltage power source greater than 5 kV; a second set of electrodes located below the first set and connected to a low voltage power source in a range of 1 kV to 5 kV; an oil outlet located at a vertical height between the first and second set of electrodes; and an inlet located at a vertical height above the first set of electrodes. 16. The separator vessel of claim 15 , further comprising variable frequency, variable amplitude power electronics in communication with the high voltage power source. 17. The separator vessel of claim 16 , wherein the high voltage power source is no greater than 60 kV. 18. The separator vessel of claim 15 , wherein at least one of the first and the second set of electrodes comprises an electrode grid.