SU1586741A1 - Electrodehydrator - Google Patents

Abstract

The invention relates to the dehydration and desalting of petroleum and can be used in the oil and petrochemical industry. To increase the efficiency of the demulsification process and the reliability of operation, the dehydrator contains a dielectric case with a distribution head for emulsion supply and branch pipes for oil and water output, electrodes and a high-voltage transformer creating a rotating field, as well as a frequency-controlled three-phase voltage source and an emulsion conductivity meter in the interelectrode space . Moreover, the input of a frequency-controlled voltage source is connected to the output of a conductivity meter, and the output is connected to the input of a high-voltage transformer for controlling the frequency of rotation of the field.

Description

The invention relates to the dehydration and desalting of petroleum and can be used in the oil and petrochemical industry.

The aim of the invention is to increase the efficiency of the demulsification process and the reliability of the device.

Figure 1 shows a block diagram of an electrohydrator; figure 2 - the body of the electro-dehydrator.

The dehydrator includes a dielectric case 1 with a distribution head 2 for the emulsion and nozzles for oil and water 4 outlet 4, electrodes 5 located around the circumference of case 1 frequency-controlled three-phase voltage source 6, the input of which is connected to the output of the conductivity meter 7.. The output of the frequency-controlled source 6 of the three-phase voltage is connected via a high-voltage transformer 8 to the electrodes 5. Moreover, the connection is made as follows: three electrodes connected to each other, connected to the neutral wire, the remaining electrodes (clockwise) are connected to the transformer leads, respectively that provides the formation of a rotating electric field. A known thyristor frequency converter (TFC) can be used as a frequency-controlled source of three-phase voltage.

Electrodehydrator works as follows.

Water oil on the emulsion enters the housing 1 through the distribution head. When switching on the frequency-controlled voltage source 6, electrodes 5 connected to the phase terminals of the transformer 8 are applied to an alternating voltage shifted in phase by 120 °. This creates a rotating electric field.

With an increase in the water content of the oil, the electrical conductivity of the emulsion and the rate of formation of chains of water globules increase. To avoid a short circuit between the electrodes, it is necessary to increase the rotation speed of the voltage vector E. This is achieved by increasing the frequency of the three-phase voltage. For this purpose, an electrical connection is provided between the conductivity meter 7 (when a chain is formed from water globules, a sharp increase in the electrical conductivity occurs) and the frequency-controlled source 8 of three-phase voltage. Voltage source 8 contains a control unit of permissible electrical conductivity and a comparison element (not shown). As soon as the electrical conductivity becomes more acceptable, the comparison element gives a signal to increase the frequency of the voltage. The rotational speed of the vector E increases and the conductivity of the emulsion decreases. Oil and water are discharged through pipes 3 and 4, respectively.

Thus, the supply of the electrodehydrator with a frequency-controlled three-phase voltage source, the input of which is connected to an emulsion conductivity meter, and the output to a high-voltage transformer, allows to increase the efficiency of the demulsification process and the reliability of the device. electric field and prevent the occurrence of a short circuit between the electrodes by changing the speed of rotation of the voltage vector.

Claims (1)

The invention includes an electrodehydrator comprising a dielectric body with a distributor head for emulsion supply and nozzles for oil and water output, electrodes, a high voltage transformer and an emulsion conductivity meter in the inter-electrode space, which is designed to increase the efficiency of the emulsion process and reliability. frequency-controlled source of three-phase voltage, and the input of the frequency-controlled source of three-phase voltage is connected to the output of tel conductivity output connected to the input of high voltage transformer and the electrodes are connected to the transformer in the housing to form a rotating electric field. Thebes 1  five W:: Shch8Sh $ zd% uh xxx c geiD "o66 x o x of6 five FIG. 2