SU1268186A1 - Method of removing solved gas from petroleum - Google Patents

Abstract

The invention relates to methods for removing gas dissolved in it from oil and improves the efficiency and quality of oil degassing. The method is carried out by pulsed treatment of oil in an electric field in the breakdown mode at an electric field (NP) intensity in the range from E to Ej, where E is NP, at which breakdown occurs in a sample of processed oil, and Ej is NP, at which there is a breakdown in the sample of degassed oil. The duration of each pulse is 0.01-0.5 mSo. It is advisable to carry out the treatment in a highly non-uniform electric field. 2 hp from f-ly, 2 tab. (L

Description

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The invention relates to the degassing of liquids, in particular to the removal of gases dissolved in it from oil, and can be used in many industries, for example, in the stabilization (deep degassing) of oil before its main transport.

The purpose of the invention is to increase the efficiency and quality of oil degassing.

The method is carried out as follows.

The strength of the electric field E is determined, at which a breakdown occurs in a sample of processed oil, and the strength of a field E, at which breakdown occurs in a sample of the same oil degassed by known methods, and the oil is processed at a field strength of from E. to E ,, Oil electroprocessing is carried out with pulses with a duration of 0.01-0.5 ms, mainly in a highly non-uniform electric field.

When oil is processed in an electric field with a voltage higher than E, gas breakdown occurs in the graded oil and vigorous discharge of dissolved gas from it in the form of bubbles, which are easily removed from the oil. Since the field strength is less than E, then the breakdown of the oil itself and the consequent formation of vapor (gas) bubbles from the oil does not occur. Due to the fact that the degassed oil during processing is not polluted by steam (gas) newly formed during its breakdown, high efficiency and quality of oil degassing is achieved.

When exposed to an electric field for 0.01-0.5 ms, dissolved gas is released in the oil and bubbles form from it; however, with such a duration of exposure, as experiments have shown, gas bubbles do not have time to move and form a continuous gas channel between the electrodes, Therefore, the entire energy of the electric field is expended, only on the release of a dissolved gas,

In the case of oil degassing, which is heavily contaminated with extraneous impurities, for example, emulsified water, particles of solids, etc., it is advisable to electroprocess the oil in a highly heterogeneous field, for example, using needle electrodes. This is due to the fact that in a homogeneous and slightly homogeneous electric fields, impurities in Yefti can form a chain aggregates, closing the electrodes, and reduce the electrical strength of the oil. Therefore, in the contaminated oil, high values of the field strength may not be achieved, at which intensive release of dissolved gas from the oil occurs. In a highly inhomogeneous electric field created, for example, by means of needle electrodes, electrocleaning occurs in the zone of maximum intensity (near the point of the needles)

oil from impurities, as well as from bubbles evolved gas, which significantly increases the efficiency of oil degassing. When processing oil in a highly nonuniform field, the latter is characterized by a maximum field strength, which is reached near the electrode with a small radius of curvature.

Example 1. A sample of gas-saturated oil with a vapor pressure of 0.1 MPa (at 38 C) is degassed by the thermal method. The electrical strength (breakdown field strength) of the oil is measured before and after degassing.

After degassing the oil sample for 30 minutes at 90 ° C, the saturated vapor pressure is 0.037 MPa, the electrical strength of the gas-rich oil E is 19 kV / cm, and; electric strength of degassed oil Ej is 24 kV / cm. Oil processing is carried out at a field strength from E to E,

In tab. 1 shows the efficiency of oil degassing by treating for 3 minutes in an electric field of various strengths and then holding the oil for 10 minutes in a vessel with an open surface,

As can be seen from Table 1, the largest degassing depth is achieved when the electric field is 20-25 kV / cm, e, practically in the range determined by measuring the electrical strength of oil samples.

Claims (3)

Example 2: Treating lawn with dry oil (saturated vapor pressure 0.14 MPa) is carried out by periodic pulses of an electric field at E 20 kV / cm (E, 16 kV / cm Ej 24. kV / cm), Degassing efficiency and energy consumption for different durations of one electrical action are given in Table. 2 As can be seen from Table 2, when the duration of a single electric pulse is less than 0.01 ms, the efficiency of degassing decreases, and with a duration of more than 0.5 ms, the energy consumption sharply increases due to the formation of a continuous gas channel between the electrodes and a partial discharge in the arc Example 3. Gas-saturated oil containing impurities (emulsified water 0.5 wt.%) Is treated in an electric field of 15 kV / cm strength (electrical strength of gas-saturated oil is 12 kV / cm, degassed and dehydrated - 17 kV / rm). The treatment is carried out using plane-plane electrodes and needle-plane electrodes. All other conditions being the same. In the first, the strength of the electric field, kE / cm. The pressure of saturated 0.1 0.095.088 vapor, MPa 1086 case the pressure of saturated vapor in the treated oil is 0.048 MPa, in the second case 0.030 bsa. Claims 1. Method for removing dissolved gas from oil by pulsed treatment of oil in an electric field in a breakdown mode, characterized in that, in order to improve the efficiency and quality of degassing, oil is treated with an electric field strength in the range from E to E where E, is the intensity of the electric field at which a breakdown occurs in a sample of processed oil, and E is the intensity of an electric field at which breakdown occurs in a sample of degassed oil. 2. The method according to claim 1, characterized by the fact that the duration of each pulse is 0.010.5 ms. 3. A method according to claim 1, wherein the treatment of the oil is carried out in a highly heterogeneous electric field. Table 1 1520253040 0.065 0.032 0.028 0.052 0.086 Duration of an electric impulse, m / s Pressure saturated table 2 0., 005 0.5 0.02