RU2726450C2 - Operating method of oil transfer station of main oil pipelines and installation for its implementation - Google Patents

Abstract

FIELD: oil transportation via main oil pipelines.SUBSTANCE: group of inventions can be used both in operated and at constructed oil transfer stations (OTS). In the proposed method of operation of OTS with two groups of electrically driven oil transfer pumps, two power gas turbine units are additionally used, using used as fuel processed associated gas. Electric generator of the first power plant is used to drive electric generator of electric motors of the first group of oil transfer pumps. Second power gas turbine plant drives electric generator of electric motors of the second group of oil pump pumps at constant current frequency, and also performs electric power supply of electric auxiliary needs of OTS. Pre-prepared associated petroleum gas is fed into combustion chambers of said plants. Energy of exhaust gases of gas turbine plants is used to heat pumped oil. At reduction of oil flow in the main oil pipeline power of the first power plant is reduced, number of electric generator revolutions and frequency of electric current and number of revolutions of oil pumps of the first group. At significant change of oil flow rate part of pumps of the second group is stopped and excess electric power is supplied from generator of the second power gas-turbine plant to external electric network.EFFECT: use of power gas turbine plants enables to avoid using expensive external electric power and ensures reduction of prime cost of oil transportation along the main oil pipeline.2 cl, 1 dwg

Description

The method of operation of an oil pumping station of oil trunk pipelines with electric drive oil transfer pumps relates to the field of oil transportation through oil trunk pipelines and can be applied both at operating and at oil pumping stations (OPS) under construction. There is a known method of operation of the pump station, according to which the power supply of electric motors of oil transfer pumps and auxiliary equipment units of the pump station is produced with electricity from external high-voltage electrical networks. To drive oil transfer pumps at oil pumping stations, unregulated synchronous electric motors are usually used. The power required to supply the PS is from 30 MW to 110 MW. (Menshov B.G., Ershov M.S., Yarizov A.D. Electrical installations and complexes in the oil and gas industry. M .: "Nedra", 2000, pp. 322-326). Due to the tendency of periodic increase in electricity tariffs, the energy consumption of oil pumping stations increases, which causes an increase in the cost of oil transportation. In addition, the disadvantages of this method of operation of the oil pumping station of the main oil pipeline is the need to limit the number of starts of electric motors of oil pumping pumps, due to a decrease in their reliability in starting modes due to high current and mechanical loads.

Known technological gas turbine power plant (RF patent 2520214) includes at least two gas turbine power plants containing a compressor, a combustion chamber, gas turbines, electric generators, heat exchanger. This technological power plant is used to generate electricity at compressor stations of main gas pipelines with electrically driven gas compressor units.

There is a known method for controlling the operating mode of the electric motors of the main pumps of an oil pumping station in which the total power of the switched on electric motors is determined, it is compared with the power determined by the oil consumption, the electric motors of the pumps are grouped by power into progression elements (A = 1MV⋅A, B = 2MV⋅A, ... M = 2 ⁿ MV⋅A.), Leaving only two elements of the progression A and B frequency-controlled with frequency converters (RF Patent No. 2274943). According to this method, the total power of all operating oil transfer pumps OPS is determined in accordance with the current flow rate (pressure) of oil and compared with the power of the pumps at the standard oil flow rate. When a mismatch occurs between the controlled and specified power, the number of included groups of frequency-controlled electric motors of the mainline pumps is changed. The use of frequency converters allows you to change the speed and load of pumping units and reduce the cost of electricity consumed by electric pumps. The disadvantages of this method are the power supply of electric motors of oil transfer pumps with expensive electricity from external high-voltage electrical networks, as well as the high cost of powerful frequency converters.

The task of the proposed technical solution is to develop a method of operation of an oil pumping station of main oil pipelines with electric driven oil transfer pumps, which makes it possible to reduce the cost of consumed electricity, increase the reliability and efficiency of the oil pumping station, both at nominal and variable modes of its operation, and reduce the cost of oil transportation through the main oil pipeline ...

The problem is solved due to the way of operation of an oil pumping station (OPS) of main oil pipelines, containing two groups of electric driven oil transfer pumps connected to an external high-voltage power transmission line, while oil transfer pumps are divided into the first and second groups, the power of the electric motors of the first group can be controlled by changing the frequency of the electric current, and the electric motors of the second group of oil transfer pumps are supplied with electricity at a constant frequency, and the oil pumping station is additionally equipped with at least two additional power gas turbine units, each of them contains a compressor, a combustion chamber, a gas turbine, an electric generator, a heat exchanger-utilizer; and a frequency control system for electric current generated by the first power gas turbine unit; the fuel for gas turbine units is previously prepared associated petroleum gas; the electric generator of the first power gas turbine unit supplies power to the electric motors of the first group of oil transfer pumps, both when the pump station is operating at nominal and reduced flow rates of the pumped oil; the electric generator of the second power gas turbine unit supplies power to the electric motors of the second group of oil transfer pumps at a constant frequency of electric current and supplies power to the auxiliary electrical needs of the pump station; the heat of exhaust gases from gas turbine units is used to heat oil pumped through the main oil pipeline; when changing the flow rate of the pumped oil using the control system change the frequency of rotation of the electric generator of the first power gas turbine unit and the speed of rotation of the electric motors of the first group of oil transfer pumps; with a significant decrease in the consumption of the pumped oil, some of the oil transfer pumps of the second group are stopped and the excess electricity generated by the electric generator of the second power gas turbine unit is fed into the external high-voltage electrical network, when repairing power plants, all electric motors of the first and second groups of oil transfer pumps are powered from the external electrical network; an oil pumping station for implementing the above method of operation, equipped with the first and second groups of oil transfer pumps, and their electric motors are connected to an external electrical network; electric motors of the first group have frequency control, and at the oil pumping station, two power gas turbine units and a device for regulating the frequency of the electric current generated by the electric generator of the first power gas turbine unit are additionally used; the electric generator of the first power plant is connected through electrical switches with the electric motors of the first group of oil transfer pumps, and the electric generator of the second power gas turbine plant is connected through electrical switches with the electric motors of the second group of oil transfer pumps, as well as with electric installations for auxiliary needs of the pump station and is connected via an electric switch to the external power line , the exhaust tract of the gas turbine units is connected through the oil recovery heaters to the atmosphere, the inlet of the main oil pipeline is connected through the utilization heaters and electrically driven oil transfer pumps to the outlet of the main oil pipeline; when the oil consumption in the main oil pipeline changes, the number of revolutions and the frequency of the electric current generated by the electric generator of the first power gas turbine unit are changed; with a significant decrease in the flow rate of the pumped oil, the electrical switches at a part of the oil transfer pumps of the second group are turned off and they are stopped, the excess electricity generated by the electric generators of the second group of power gas turbine units is supplied at a constant frequency of electric current to the external electrical network.

The proposed method allows:

with a decrease in oil consumption in the main oil pipeline, carry out frequency regulation of the first group of oil transfer pumps;

- to use associated petroleum gas as a fuel and to heat the pumped oil by utilizing the heat of exhaust gases from power gas turbine units, which makes it possible to reduce the cost of oil transportation;

- power supply of oil pumping pumps and electric auxiliary needs of the PS by means of power supply from additionally installed power gas turbine units increases the reliability of the oil pumping station and reduces power supply costs due to the refusal to consume expensive electricity from external high-voltage electrical networks;

- to sell the excess electricity generated by the electric generators of gas turbine units.

To implement the proposed method, the oil pumping station of the main oil pipeline containing two groups of electrically driven oil transfer pumps connected to an external high-voltage power transmission line is supplied with at least two additional power gas turbine units, the thermal diagram is shown in FIG. 1. It includes: main oil pipeline 1, the first power gas turbine unit 2, heat recovery units 3, the second power gas turbine unit 4, electric motors of oil transfer pumps of the first group 5, an electric switch for supplying electricity from the external electrical network to the first group of oil transfer pumps 6, electric motors of oil transfer pumps the second group 7, electrical switches for supplying electricity from the generators of the first and second power gas turbine units 8, electrical switch for supplying electricity from the external electrical network 9, output main oil pipeline 10, external power line 11, electrical installations for auxiliary needs of NPS 12, frequency control system of electric current 13 generated by the first power gas turbine unit 2.

The main oil pipeline 1 is connected with heat exchangers and through oil transfer pumps of the first and second groups, as well as with the output main oil pipeline 10. Electric generators of the first 2 and second 4 power gas turbine plants are connected by electric lines through electrical switches 8 with electric motors 5 of the first group and electric motors 7 of the second group oil transfer pumps. The external electrical network 11 through an electrical switch 9 is connected to the electrical installations for auxiliary needs of the NPS 12, the frequency control system of the electric current 13 is connected by impulse lines with the main oil pipeline 1 and with the first power gas turbine installation 2.

An oil pumping station equipped with at least two additional power gas turbine units, which implements the proposed method, operates as follows. Oil from the main oil pipeline 1 is heated in heat utilizers 3 with the heat of exhaust gases from power gas turbine plants 2 and 4, the pressure in the oil transfer pumps of the first and second groups driven by synchronous electric motors 5 and 7 is increased, the supply of electricity to these electric motors generated by the electric generators of the first 2 and the second 4 of the power gas turbine installations are produced through electric lines through electrical switches 8. When reducing the consumption of oil through the main oil pipeline 1, the first power gas turbine unit 2 using the frequency control system of the electric current 13 reduce the fuel gas consumption into the combustion chamber of the first power gas turbine unit, reduce its power, the number of its revolutions electric generator and the frequency of the generated electric current and electricity from it is supplied at a reduced frequency to the electric motors 5 of the first group of oil transfer pumps, when the electric switch is open Section 6. The second power gas turbine unit 4 operates with the supply of electricity from its electric generator with a frequency of 50 Hz to the electric motors 7 of the second group of oil transfer pumps and provides power supply to the electrical auxiliary needs of the PS. With a significant decrease in oil consumption, part of the oil transfer pumps of the second group is stopped and the excess electricity generated by the second power gas turbine unit is supplied through a closed electrical switch 9 to the external electrical network. Electric motors 5 of the first group and 7 of the second group of oil transfer pumps are supplied with electricity from the external electrical network 11 in cases when the power gas turbine units 2 and 4 are turned off and are being repaired.

Claims (2)

1. The method of operation of an oil pumping station (OPS) of main oil pipelines containing two groups of electric driven oil transfer pumps connected to an external high-voltage power transmission line, while oil transfer pumps are divided into the first and second groups, the power of the first group electric motors can be controlled by changing the frequency of the electric current, and the electric motors of the second group of oil transfer pumps are supplied with electricity at a constant frequency, characterized in that the oil pumping station is additionally equipped with at least two additional power gas turbine units, each of which contains a compressor, a combustion chamber, a gas turbine, an electric generator, a heat exchanger-utilizer, and the frequency control system of the electric current generated by the first power gas turbine unit, the fuel for the gas turbine units is previously prepared associated petroleum gas, the electric generator the generator of the first power gas turbine unit supplies the electric motors of the first group of oil transfer pumps both during operation of the pump station at nominal and reduced flow rates of the pumped oil, the electric generator of the second power gas turbine unit supplies the electric motors of the second group of oil transfer pumps at a constant frequency of electric current and supplies the electric auxiliary needs of the pump station, the heat of the exhaust gases of gas turbine units is used to heat oil pumped through the main oil pipeline, when the flow rate of the pumped oil changes using the control system, the rotational speed of the electric generator of the first power gas turbine unit and the rotational speed of the electric motors of the first group of oil transfer pumps are changed, with a significant decrease in the flow rate of the pumped oil, some of the oil pumping pumps the second group stops and surplus electricity, The power supplied by the electric generator of the second power gas turbine unit is fed to the external high-voltage electrical network; during the repair of power plants, all electric motors of the first and second groups of oil transfer pumps are powered from the external electrical network. 2. An oil pumping station for implementing the method according to claim 1, equipped with the first and second groups of oil transfer pumps, and their electric motors are connected to an external electrical network, the electric motors of the first group have frequency control, characterized in that the oil pumping station additionally uses two power gas turbine units and a device for regulating the frequency of the electric current generated by the electric generator of the first power gas turbine plant, the electric generator of the first power plant is connected through electric switches with the electric motors of the first group of oil transfer pumps, and the electric generator of the second power gas turbine unit is connected through electric switches with the electric motors of the second group of oil transfer pumps, as well as with electric units auxiliary needs of the pump station and is connected through an electrical switch with an external power line, the exhaust tract of gas turbine units connected through the recovery heaters of oil to the atmosphere, the inlet of the main oil pipeline is connected through the recovery heaters and oil transfer pumps with an electric drive to the outlet of the main oil pipeline, when the oil consumption in the main oil pipeline changes, the speed and frequency of the electric current generated by the electric generator of the first power gas turbine unit are changed, with a significant decrease the flow rate of the pumped oil, the electrical switches at a part of the oil transfer pumps of the second group are turned off and they are stopped, the excess electricity generated by the electric generators of the second group of power gas turbine plants is supplied at a constant frequency of electric current to the external electrical network.

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