SU1663214A1 - Gas-turbine plant - Google Patents

Abstract

This invention relates to power engineering. The aim of the invention is to increase the efficiency of a gas turbine installation when performing turbines of gas generators with ceramic elements. The gas turbine plant contains gas generators connected in parallel, having a compressor 1, a combustion chamber 2, a turbine 3, a common power turbine 4, the inlet of which is connected to the outlets of the gas generators turbines 3. The installation can be performed with a common compressor 9 connected to the inputs of the compressors 1 of the gas generators. Each gas generator is equipped with at least two heat exchangers 5 and 6 and additional turbines 7 and 8. The separation of the working fluid into at least two streams allows the high-temperature part to be separated into separate units and to increase the economics of the installation by using structural ceramics in gas turbine elements and heat exchangers gas generators. 2 hp ff, 2 ill.

Description

divide the high-temperature part into separate units and increase the efficiency of the installation by using

structural ceramics in the elements of gas turbines and gas generator heat exchangers. 2 hp f-ly, 2 ill.

This invention relates to power engineering.

The aim of the invention is to increase the efficiency of a gas turbine installation when performing turbines of gas generators with ceramic elements.

FIG. 1 shows a diagram of a gas turbine installation; in fig. 2 is a diagram of a gas turbine unit with a common compressor. The gas turbine plant contains gas generators connected in parallel, having a compressor 1, a combustion chamber 2, a turbine 3, a common power turbine 4, the inlet of which is connected to the outlets of the gas generators turbines 3.

Each gas generator is equipped with at least two heat exchangers 5 and 6 connected in series, with the entrance to the heat exchanger 5 in the heated medium connected to the outlet of the compressor 1 of the gas generator, and the input in the cooled medium to the output of the common power turbine 4. The output of the second heat exchanger 6 in the heated medium connected to the outlet of the combustion chamber 2, and its input through a cooled medium to the outlet of the turbine 3 of the gas generator.

Each gas generator is equipped with additional turbines 7 and 8, connected to the output of the turbine 3 and the input to the common power turbine 4.

Gas turbine installation can be performed with a common compressor 9 connected to the inputs of the compressors 1 gas generators.

Gas turbine installation works as follows.

The working fluid, for example air, enters the compressor 1 of each of the gas generators in which the compression process takes place. The compressed air then enters the B heat exchanger 5, in which the process of transferring thermal energy from the gases coming from the power turbine 4 to the compressed air flows. In the heat exchange apparatus 6, the process of transferring thermal energy from the stream coming from the turbine 3 to the compressed air directed from the compressor 1 to the combustion chamber 2 is provided.

From chamber 2, the gas enters the inlet section of the turbine 3 of the gas generator. The working fluid leaving turbine 3 is cooled

in heat exchanger 6 and is fed into

the inlet section of the common power turbine 4. In addition, the working fluid (or its part) from the turbine 3 of the compressor 1 is directed to the additional power turbine 7, which is part of the gas generator, or to the additional power turbine 8.

In turbines 7 and 8, the temperature of the working medium decreases due to the conversion of the energy of the flow into mechanical energy and the supply of this working medium into a common power turbine 4.

In this gas turbine installation, the principle of aggregation is implemented, when the working fluid is preliminarily supplied to two or more gas generators and then sent to a common power turbine 4, which allows the use of structural ceramics for the gas generator turbines operating at high temperature; and therefore allows

the temperature of the working fluid at the entrance to the turbine 3 in order to increase the efficiency of the gas turbine installation.

Claims (3)

1. A gas turbine unit comprising gas generators connected in parallel, having a compressor, a combustion chamber, a turbine and a common power turbine, the inlet of which is connected to the gas generator turbine outlets, characterized in that, in order to improve the efficiency of the gas turbine unit when performing gas turbine generators with ceramic elements, each gas generator is additionally equipped with at least two heat exchangers connected in series, with the entrance to the first heat exchanger connected to the heated medium Exit compressor gas generator, and the inlet through the cooled medium to the outlet of the common power turbine, the outlet of the second heat exchanger in the heated medium is connected to the inlet of the combustion chamber, and its inlet through the cooled medium to the outlet of the turbine of the gas generator. 2. Installation according to claim 1, characterized in that each gas generator is provided with an additional turbine connected to the outlet of the gas generator turbine and to the common turbine inlet. 3. Installation on PP. 1 and 2, about tl and h and the humor, the output of which is connected to the inlet with that which is equipped with common compressors of gas generators. R one fig-z