Separator for desalting petroleum crude oils having rag layer withdrawal

The invention claimed is: 1. A petroleum desalter which comprises: a desalter vessel having a feed inlet for admitting a mixture of crude oil to be desalted with desalting water to form (i) a settled water layer containing salts dissolved from the oil in the lower portion of the vessel, (ii) a settled supernatant desalted oil layer in the upper portion of the vessel and (iii) an emulsion layer formed from the oil and the water between the settled water layer and the settled oil layer, a water outlet conduit at the bottom of the vessel for removing water from the water layer, an oil outlet conduit at the top of the vessel for removing desalted oil from the oil layer, a plurality of vertically spaced emulsion outlets for removing emulsion from the emulsion layer, a level sensor system to indicate a lower interface between the top of the water layer and the bottom of the emulsion layer and an upper interface between the top of the emulsion layer and the bottom of the oil layer, a water outlet control valve in the water outlet conduit operable by the level sensor system to regulate the water outlet control valve in accordance with the water level indicated by means of the sensor so that the bottom of the emulsion layer is maintained above a minimum water level, an emulsion outlet valve on each of the emulsion outlets operable by the level sensor system to regulate the emulsion outlet valve on each of the emulsion outlets in accordance with the emulsion level indicated by the level sensor system so that at least one of the emulsion outlet valves is opened to remove emulsion from the vessel when the top of the emulsion layer in the vessel rises to a maximum emulsion level. 2. A desalter according to claim 1 in which the level sensor system is connected to control circuitry to open the emulsion outlet valve on each of the emulsion outlets when the oil/water ratio of the emulsion layer at the maximum emulsion level attains a predetermined value. 3. A desalter according to claim 2 in which the level sensor system is connected to control circuitry to open the uppermost emulsion outlet valve when the oil/water ratio of the emulsion layer at the level of the sensor attains a predetermined value. 4. A desalter according to claim 1 in which the level sensor system is operable to regulate the water level in the vessel at a substantially constant level in the vessel. 5. A desalter according to claim 1 in which the level sensor system is connected to control circuitry for the emulsion withdrawal valves to open the emulsion outlet valves progressively in accordance with the emulsion level in the vessel. 6. A desalter according to claim 1 in which the level sensor system comprises a density profiler. 7. A desalter according to claim 1 in which the level sensor system comprises a density profiler to indicate the maximum emulsion level and a level probe to indicate the interface between the top of the water layer and the bottom of the emulsion layer. 8. A desalter according to claim 1 in which the level sensor system comprises an upper water/oil ratio probe to indicate the maximum emulsion level and a lower water/oil ratio probe to indicate the interface between the top of the water layer and the bottom of the emulsion layer. 9. A desalter according to claim 1 in which the emulsion outlets are connected to a settling vessel to permit the emulsion to settle to remove water from the emulsion. 10. A desalter according to claim 1 in which the emulsion outlets are connected to an emulsion treatment system to separate the emulsion into water and oil, to send the separated oil to refinery processing and the water to a waste water treatment system. 11. A desalter according to claim 10 which comprises a centrifuge connected to the emulsion outlets. 12. A desalter according to claim 11 in which the centrifuge is a decanter centrifuge.