RU29566U1 - Power plant of a gas pumping station of a gas main - Google Patents

Abstract

An energy utilization installation of a gas pumping station of a main gas pipeline, comprising a gas turbine installation for driving a supercharger and a turbo expander connected to the output of the latter, the output main of which is in communication with the combustion chamber of the gas turbine installation, an intermediate selection is communicated through a cooler with the inlet of the supercharger, characterized in that on the discharge line of the exhaust gas turbines installations installed absorption chiller, pipelines of liquid and vaporous refrigerant which connected to the coolant annulus.

Description

Energy installation of a gas pumping station for a gas main

The utility model relates to a power system and can be used to increase the efficiency of power generation for own needs of gas-pumping main gas pipelines.

Known power plant for a gas pumping station for AS USSR No. 857523, containing a gas turbine installation for driving a natural gas supercharger and a turbo expander connected to the output of the latter, the output line of which is connected to the combustion chamber of the gas turbine installation, and the intermediate selection is communicated through a cooler with the inlet of the supercharger.

In the materials of A.S. USSR Ke 857523 does not indicate the type of cooler and the energy source necessary to remove the necessary amount of heat from the gas sent to the gas pumping station, which are again compressed to the compressor inlet.

In the literature1 (see, for example, M.M.Dubinin, “Compressor plants in the oil and gas industry, M ,,“ Ne; fa, 1970, p.64), it is indicated that extinguished chillers with gas are used for gas cooling at gas pumping stations a fan for moving air or water coolers with pumps for pumping water. Thus, a part of the electric energy produced by the turboexpander must compensate for the energy consumption for driving the air cooler fans or the energy consumption for driving the pumps in water coolers. In addition, the gas temperature after

2003105953

 CHSIIIIG ™

MPK7R02S6 / 06

BOSvZQoiOTHX or water coolers are 15-20 C higher than the ambient temperature, which increases the compression work in the pump pump supercharger.

These disadvantages are eliminated by the fact that an absorption refrigeration machine is installed on the exhaust gas line of the gas turbine unit, which operates due to the heat of the exhaust gases of a gas turbine having a temperature of 400-450 ° C. The liquid refrigerant piping of the absorption chiller is connected to the inter-lip space of the cooler, and the vaporous refrigerant is returned through the return piping to the absorption chiller for reuse.

In FIG. 1 shows a diagram of the proposed installation.

The installation has a line of electrical auxiliary needs 1, an electric generator 2, a turbo expander 3 with a gas sampling chamber 4, a gas pipeline 5, a cooler 6, a suction gas pipeline 7, a combustion chamber 8 of a gas turbine installation 9, a recovery heat exchanger 10 for heating gas before the turbine expander, a supercharger 11, a line injection of the gas compressor station 12, an absorption refrigeration machine 13, a liquid refrigerant pipe 14 into the annulus of the cooler 6 and a vapor refrigerant pipeline 15 from the annulus of the cooler 6,

Installation works as follows.

The transported gas through the suction line 7 enters the supercharger 11, after which it is supplied to the discharge line 12. The required amount of gas is taken from the line 12, heated in the waste heat exchanger 10 due to the heat of a part of the exhaust gases of the gas turbine 9, and fed to the turbo expander 3. Turbo expander 3 1 FIVODIT into operation generator 2, which feeds a line of electrical

own needs 1. A part of the gas that was plugged into the turbo expander 3 is taken from the sampling chamber 4, cooled in the cooler 6 by means of an absorption refrigeration machine 13, and sent to the suction line 7 through pipeline 5. The remaining gas from the outlet of the turbo expander 3 is supplied to the combustion chamber 8 gas turbine installation 9. A part of the exhaust gas of the gas turbine installation 9 is sent to a heat recovery heat exchanger 10, another part of the exhaust gas is directed to an absorption refrigeration machine 13 and provides 1 FILLING of cold necessary for refrigerant 6.

Thus, the use of an absorption refrigeration machine operating due to the heat of the exhaust gases of a gas turbine makes it possible to fully use the electricity generated by the turboexpander for the gas pumping station’s own needs, as well as to lower the temperature of the gas supplied to the supercharger below the ambient temperature and reduce the energy consumption for re-use compression of the gas discharged from the selection of a turboexpander.

Claims (1)

An energy utilization installation of a gas pumping station of a main gas pipeline, comprising a gas turbine installation for driving a supercharger and a turbo expander connected to the output of the latter, the output main of which is in communication with the combustion chamber of the gas turbine installation, an intermediate selection is communicated through a cooler with the inlet of the supercharger, characterized in that on the discharge line of the exhaust gas turbines installations installed absorption chiller, pipelines of liquid and vaporous refrigerant which connected to the coolant annulus.