SU785342A1 - Method of control of oil emulsion dehydration process - Google Patents

Description

(54) CONTROL METHOD OF PRSAYTSK; OIL EMULSION EMERGENCY COMBINATION SOM The invention relates to the regulation of the dewatering process of an oil emulsion during its complex preparation and can be used in the oil producing and refining industry. There is a known method for controlling the process of dehydrating a petroleum emulsion by controlling the flow rate of the demulsifier and the temperature of the process depending on the stability of the oil emulsion at the inlet of the Carboniferous. The lack of knowledge of the method is that direct measurement of the stability of the oil emulsion or its determination based on actual process data is not possible. In addition, the well-known method does not take into account the change in the deposition rate of dispersed water droplets in the oil emulsion. The closest analogue to the proposed method is to control the temperature at the inlet of the sedimentation tank depending on the flow rate of the slurry at the inlet of the test bag with an impact on the consumption of previously used commercial oil. The known method has a natural disadvantage. It consists in m and that does not take into account the characteristics of the process of water precipitation in the sump. This leads to a higher cost of the demulsifier and energy resources during the process of oil dehydration. The goal of the process is to reduce the cost of the process of integrated fuel consumption. The post-chain is achieved by the hydrostatic pressure of the oil emulsion at four points behind the height located at the height of the hole, the differential pressure is determined between the second, third and fourth points, and the calculated hydrostatic pressure is subtracted from each calculated differential separately.

Claims (1)

785342 clean oil in the separation vessels, determines the ratio of the values found and, depending on this ratio, corrects the temperature at the outlet of the heat exchanger. The proposed method of controlling the dewatering process is illustrated in the drawing, where heat exchanger I is forged to heat the oil emulsion coming through line 2 and heated out through line 3, and a sump 4 designed for oil emulsion separation. Sludge water is removed from the sump through pipeline 5, and oil with a low concentration of water is discharged through pipeline 6. Hydrostatic pressure drops between points 7 and 8, as well as 9 and tO are measured in assembly II and 12 connected to taddle vessels t3 and 14 The hydrostatic pressure in the separation vessels is chosen equal to the hydrostatic pressure of pure oil between points 7 and 8, while the distance between points 7 and 8, as well as between points 9 and 10, is the same. The ratio of hydrostatic pressures at the outputs of devices II and 12 is calculated by device 15. An output signal proportional to the ratio of hydrostatic pressures at the output of burs II and 12 enters the correction chamber jJorynHTopa 16 connected to the temperature sensor 17 and the sensing element 18 then 4th temperature. The output 1K) signal of the regulator 16 enters the actuator 19, installed on the pipeline of the supply line of heated commercial oil used as a heating agent. The ratio of hydrostatic pressure drops at the output of devices 11 and 12 is proportional to the rate of droplet deposition between points 7 and 8t as well as between points 9 and 10. The invention The method of controlling the dewatering process of an oil emulsion by controlling the temperature of the heat to 6MeHHihs; e with an effect on the heating agent flow characterized by the fact that, in order to reduce the cost of the process of complex preparation of oil in terms of reagent and fuel consumption, the hydrostatic pressure of the oil emulsion is increased by four ex consecutive points located along the height of the sump; the difference between the hydrostatic pressures of the oil emulsion between the first, second, third and fourth points; the specified hydrostatic pressure of the non-divided separating vessels is subtracted separately from each calculated differential; The ratios adjust the temperature at the heat exchanger outlet. Sources of information taken into account in the examination 1. D. Levchenko, N. and others. Oil-water emulsions and methods for their destruction / M .; 1967, p. 34, 37. H TO 4i /  | r   /     ,