RU170430U1 - DEVICE FOR NORMALIZING ELECTRICITY PARAMETERS OF A GENERATOR INSTALLED ON A SHAFT OF A GAS-PUMPING TURBO UNIT - Google Patents

Abstract

The inventive utility model relates to the field of electric power, and can be used to eliminate the dependence of the parameters of the electric power (frequency, amplitude and voltage form) of the generator on the change in the rotational speed of the rotor of the high pressure turbine (HPT) of the gas pumping unit (GPU). The technical result, the achievement of which the claimed device is aimed, is to improve the quality of electricity at the maximum efficiency of gas pumping units (GPU) by eliminating the dependence of the parameters of the electric power (frequency, amplitude and voltage form) of the auxiliary generator on the rotational speed of the high-pressure turbine rotor ) The specified technical result is achieved by the fact that the device for normalizing the parameters of the electric power of the generator mounted on the shaft of the gas pumping turbine unit, including a power converter equipped with a control unit, is connected via the connection circuits and switching devices to the generator supply line and distribution buses of the electricity consumers, and use as a power converter a frequency converter for general use, the output of which is connected in series a sine filter and an isolation transformer, to which distribution buses of consumers of electricity are connected through an output contactor. 1 ill.

Description

The inventive utility model relates to the field of electric power, and can be used to eliminate the dependence of the parameters of the electric power (frequency, amplitude and voltage form) of the generator on the change in the rotational speed of the rotor of the high pressure turbine (HPT) of the gas pumping unit (GPU).

Gas pumping units are designed to increase the pressure of the gas transported through the main gas pipeline.

Gas pumping unit (GPU) consists of a centrifugal supercharger (compressor) driven by a gas turbine. To provide electric power to auxiliary devices of a turbine unit (lubrication pumps, cooling fans, etc.), an auxiliary generator is used rigidly connected to the turbine engine rotor during its operation.

Centralized control and management systems for gas turbine gas pumping units are designed to operate as part of automation systems at compressor stations of the main gas pipeline. The main regulator in the system is a speed regulator that maintains a given frequency of rotation of the turbine shaft.

The prior art system for controlling the operation of a hydroelectric turbine, comprising a converter system configured to convert AC power supplied by a generator connected to the turbine and having voltage and frequency that depend on the speed of rotation of the turbine, into AC power having voltage and the frequency of the transmission system for transmitting AC power to the receiving substation, the system further comprising a control module, which is configured to the interaction of the converter system in order to regulate the alternating current voltage supplied by the generator depending on the speed of water flow through the turbine, in order to control the rotation of the turbine, the converter system comprising a first stage converter and a second stage converter, between the first stage and the second the step is located DC link, and the Converter of the first stage is made with the possibility of converting AC power, given by the generator into direct current power, and the second-stage converter is capable of converting direct current power into alternating current power for transmission to a receiving station (application for invention No. 2014108960 “Method and system for controlling hydroelectric turbines”, filing date 10.08.2012, publication date September 20, 2014).

The disadvantages of the known device are associated with the implementation of the multi-stage converter system, while the DC power converted to AC power is transmitted to the receiving substation. This device has application limitations, namely, it is used in hydroelectric turbines.

The closest technical solution to the claimed utility model is a device containing at least one generating unit from a turbine and an alternating current generator, to the tires of which an electric storage device with a reversible static converter and at least one transmission line are connected through the connection circuits, in this case, the reversible static converter is equipped with a control unit, which is connected by an input to the generator shaft speed sensor and is configured to translate indexer in inverter or rectifier mode for a given deviation of the rotation speed of the generator shaft from its synchronous value down or up, respectively, and the phase-shifting device is included in the power line, the control input of which is designed for remote control of active power (patent No. 1074141 for utility model “Fragment of intellectual electric power systems with high-speed regulation of active power ”, submission date 03/21/2011, published 08/10/2011).

The disadvantages of the prototype are due to a complex multi-stage conversion scheme in which specialized units and assemblies are used, which requires the same specialized equipment maintenance during operation. In addition, in the closest analogue, the generator is the main load of the turbine, and in the gas pumping unit (GPU) the main load of the turbine is a centrifugal supercharger, and the generator is auxiliary equipment, so the use of this device is difficult.

Computational studies carried out by Teploenergetik UNPP LLC showed that to ensure maximum efficiency of the gas pumping turbine unit, it is necessary to maintain a constant reduced rotational speed of the high-pressure turbine rotor (TVD), while the physical rotational speed of the turbine engine rotor changes, which leads to a deviation from the norm of the parameters electricity, in particular the frequency generated by the generator of electricity varies in the range of 40-60 Hz, which is unacceptable for the operation of auxiliary mechanisms of the gas compressor.

The technical result, the achievement of which the claimed device is aimed, is to improve the quality of electricity at the maximum efficiency of gas pumping units (GPU) by eliminating the dependence of the parameters of the electric power (frequency, amplitude and voltage form) of the auxiliary generator on the rotational speed of the high-pressure turbine rotor )

The specified technical result is achieved in that the device for normalizing the parameters of the electric power of the generator mounted on the shaft of the gas-pumping turbine unit, including a power converter equipped with a control unit, through the connection circuits and switching devices connected to the supply line of the generator and distribution buses of electric power consumers, characterized in that as power converter use a frequency converter for general use, the output of which is sequential attached sine filter and isolation transformer to which the contactor is connected across the output distribution bus power consumers.

The utility model proposed for protection is illustrated by drawings, where

FIG. - a single-line block diagram of a device for normalizing electricity parameters.

The device for normalizing the parameters of electric power 1 is built into the standard control circuit of the gas pumping turbine unit with full preservation of the existing algorithms for its operation, control, blocking and backup and placed between the output line of the auxiliary generator 2 and the circuit breaker 3 located in the control rack of the turbine unit 4 and connected to the distribution buses consumers (item not specified).

A power choke 6 is connected to the supply circuit between the auxiliary generator 2 and the input of the power converter 5, which is used as a variable frequency drive for general use (frequency converter for general use), which helps reduce the level of interference affecting the operation of generator 2.

The power converter 5 is equipped with a control unit with a controller (not shown in the drawing), which, in turn, is connected to the distribution buses of consumers of electric power and, if necessary, provides corrective signals to the power converter.

Due to the design features of a frequency-controlled drive - a frequency converter for general use, due to the presence of a passive rectifier 7 and an inverter 8, its output voltage and current have a distorted, non-sinusoidal shape with a large number of harmonic components (interference).

In order to effectively suppress the aforementioned high-frequency interference and obtain a sinusoidal form of voltages and currents, a sinus filter 9 and an isolation transformer 10 are connected in series to the output of the power converter 5, to the output of which a three-phase filter capacitor 11 is connected.

Thanks to the manual load splitter 12, built between the auxiliary generator 2 and the line reactor 6, and connected to the output contactor 13, connected to the distribution buses of electricity consumers, it is possible to disconnect the parameter normalization device from the generator and the control unit of the turbine unit and connect the generator directly to the distribution buses turbine unit control racks, which contributes to the operational restoration of the standard power supply scheme and prevent prevents emergency stop of the turbine unit in case of failure of the stabilization device. When the bypass line is turned on, the normalization device is completely excluded from the power supply circuit, consumers are supplied with a standard circuit. Such a transition is made in the following cases:

- in case of failure (malfunction) of the stabilization device;

- during the operation of the turbine unit according to the standard algorithm (with the maintenance of not given, but physical RPM revolutions), when the generator gives stable 50 Hz, and there is no need to use a normalization device.

The device operates as follows.

Protection of the auxiliary generator 2 from interference arising from the operation of the power converter in the normalization device 1 is carried out by a line reactor 6. Then a three-phase voltage of 380 V with a frequency of 40-60 Hz of the generator of auxiliary needs 2 is rectified in the power converter by a passive rectifier 7 and converted into DC voltage with an amplitude of 510-540 V. The inverter 8, which is part of the power converter, generates a pulse-width-modulated (PWM) voltage of amplitudes from a DC voltage with an amplitude of 510-540 V nd 510-540 V and a frequency of 5 kHz, the effective (RMS) value of the PWM voltage equal to 380 V.

By means of a sine filter 9 connected to the output of the power converter 5, a voltage of 380 V at a frequency of 50 Hz is extracted from the PWM signal. After that, the isolation transformer 10 balances the power supply circuit and compensates for the harmonics of the mains voltage that are multiples of 3 (three). The filtering three-phase capacitor 11 filters out the remaining noise with a PWM frequency, bringing the quality of electricity to meet the requirements of GOST R 54149-2010 "Norms of quality of electric energy in general power supply systems."

During operation, the control controller (not shown) analyzes the parameters issued by the device to normalize electricity and, if necessary, gives the power converter 5 correcting signals.

The operation of a gas pumping unit with an integrated device for normalizing electric power parameters with a constant reduced rotational speed of the turbine engine rotor provides maximum efficiency in the entire range of operating modes, which, in turn, can significantly save fuel gas.

The results of the design studies of the UNNPP Teploenergetik LLC are confirmed by experimental tests conducted at the Komsomolsky LPUMG.

The advantages of the proposed device are the increased quality of the electricity supplied, corresponding to GOST R 54149-2010, as well as operation at the highest possible efficiency due to the constant reduced rotational speed of the turbine engine rotor.

Claims (1)

A device for normalizing the parameters of the electric power of a generator mounted on the shaft of a gas-pumping turbine unit, including a power converter equipped with a control unit, through connection circuits and switching devices connected to the generator supply line and distribution buses of electricity consumers, characterized in that a frequency converter of general use is used as a power converter to the output of which a sine filter and an isolation transformer are connected in series a motor to which distribution buses of consumers of electricity are connected via an output contactor.

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