SU1071037A1 - Gas-turbine unit for compressor plant of main gasline - Google Patents

Abstract

GAS TURBINE INSTALLATION FOR K01-SHRESSORNY STATION OF THE MAIN GAS LINE, containing sequentially installed along the working medium, an air cycle compressor, a combustion chamber and gas turbines, a supply line of the fuel gas connected to the combustion chamber through a reduction unit, and a stand-hook; characterized in that, in order to increase efficiency, the installation is equipped with an expander connected to the fuel gas supply line parallel to the unit (L audio and having an output. shaft coupled to the rotor podpytochnogo compressor and heater top§ Livni gas expander is installed in front. h CO

Description

one

The invention relates to the field of turbomachinery, mainly to gas turbine installations, which drive natural gas blowers at compressor stations of main gas pipelines.

A gas turbine installation is known comprising a combustion chamber and a gas turbine in which an increase in power and efficiency is achieved by supplying steam to the combustion chamber, which is produced in the recovery steam generator due to the heat of the exhaust gases.

However, according to the conditions of gas-turbine installations on gas pipelines (with a free power turbine), the amount of steam that can be fed into the zone of the combustion chamber is very small compared to its possible production in the garbage disposal system. The supply of steam directly in front of the cim turbine of a gas-steam plant is considerably less efficient. The disadvantages of this gas turbine installation should also include its high cost and complexity of operation.

The closest to the described invention in technical essence and the achieved result is a gas turbine installation for a compressor station of a gas pipeline containing an air cycle compressor sequentially installed along the working medium, a combustion chamber and gas turbines, a supply line of fuel gas connected to the combustion chamber through a reduction unit and a make-up compressor connected to the output of the cycle compressor.

The disadvantage of this gas turbine installation is the need to install a special aircraft engine with additional regulating devices with limited opportunities to force the gas turbine installation due to the approach of the compressor operation mode to the surging boundary and due to an increase in the rotation frequency of the compressor shaft. Moreover, this gas turbine installation does not provide for disposal Ilmeyuschih at the compressor station of secondary energy, and is designed to burn an additional amount of for in ka071037

fuel quality for an aircraft engine; All this reduces the cost of installation.

The aim of the invention is to increase the efficiency and available power of the gas turbine unit /.1; for the compressor station of the main gas pipeline.

The uxanna goal is achieved by

what is a gas turbine plant for

compressor station of the gas pipeline, containing sequentially installed downstream of the working body, air compressor, combustion chamber and gas turbines, supply gas line connected to the combustion chamber through a reduction unit, and a make-up compressor connected to the output of the cycle compressor, is equipped with an expander, and a booster compressor, connected to the output of the cycle compressor, is equipped with an expander, and a booster compressor, connected to the output of the cyclic compressor, is fitted with an expander, and a booster compressor, connected to the output of the cyclic compressor, is fitted with an expander, and a booster compressor, connected to the output of the cycle compressor, is fitted with an expander, and a booster compressor, connected to the output of the cyclic compressor, is fitted with an expander, and a booster compressor, connected to the output of the cyclic compressor, is fitted with an expander, and a booster compressor, connected to the output of the cycle compressor, is equipped with an expansion unit, and 1 m to the fuel gas supply line parallel to the power supply unit and having an output shaft connected to the rotor of the submarine compressor, and in front of the expander Fuel gas heater is installed.

The drawing depicts the scheme descriptions of a gas turbine installation for the compressor station of the main gas pipeline.

The gas turbine unit for the compressor station contains air cycle compressor 1 sequentially installed along the working medium, combustion chamber 2 and gas turbines 3 and 4, fuel gas supply line 5 connected to the combustion chamber 2 through reduction unit 6, and iodopper compressor 7, connected to the output of the cyclic compressor 1. The installation is also equipped with an expander S, connected to the fuel gas supply line 5 parallel to the reduction unit 6 and has an output shaft 9 connected to the rotor of the makeup computer essora 7 and the expander 8 before the heater 10 installed fuel gas. The expander 8, together with the make-up compressor 7, forms the utilization unit of the make-up. - An automatic valve 11 and an exhaust valve 12 are installed on the air line c-tiO after compressor 7. On the line 5 of the fuel gas there is a gas drying and cleaning unit 13

and valves 14 of the fuel system of a gas turbine installation.

The installation works as follows.

With the passage of gas through the expander 8, its pressure is reduced from its value in the gas pipeline to the fuel gas required in line 5. The throughput capacity of the expander 8 is designed for the nominal consumption of one or a group of gas turbines. The required temperature of the gas after expansion is ensured by the operation of the preheater 10. When the expander 8 is in operation, the reduction unit 6 is turned off or, if necessary, it can pass a small gas flow for control purposes and, if necessary, for switching on the reserve units. The pressure in the fuel gas line 5 is maintained by the regulator of the reduction unit 6.

The make-up compressor 7 driven by the expander 8 takes in air after the air preparation unit 071037

of the gas turbine installation and supplies it to the high-pressure path behind the cycle compressor 1. To shut off

5 no line after makeup compressor 7 from stopping or non-working. A thawing unit serves as an automatic valve 11, which closes when the pressure drops behind it and opens when there is no noticeable pressure drop. The exhaust valve 12 is used when starting and stopping the makeup compressor 7.

15 This gas turbine plant for the compressor station of the trunk gas pipeline is highly economical and allows for increasing the available capacity of the plant in the summer

20 seasons due to the utilization of energy overpressure of the reduced fuel gas. This makes it possible to increase the productivity of the gas pipeline in the summertime of the year and to rationally use part of the secondary energy resource of the compressor station throughout the year.

Claims (1)

A GAS TURBINE INSTALLATION FOR A COMPRESSOR STATION OF A MAIN GAS PIPELINE containing an air cycle compressor, a combustion chamber and gas turbines, a fuel gas supply line connected to the combustion chamber through a reduction unit, and a make-up compressor connected to the outlet of the cyclic compressor, sequentially installed along the working fluid that, in order to increase efficiency, the installation is equipped with an expander connected to the fuel gas supply line parallel to the reduction unit and have just a day off. a shaft connected to the rotor of the make-up compressor, and a fuel gas heater is installed in front of the expander. and