RU2004118624A - GAS-TURBINE ENGINE OPERATION METHOD AND GAS-TURBINE ENGINE (OPTIONS) - Google Patents

Claims (10)

1. The method of operation of a gas turbine engine, including cooling the working fluid, its compression, heating and expansion to obtain useful energy, characterized in that the working fluid with an initial temperature and pressure is cooled with a refrigerant to a temperature close to the boiling point of the refrigerant, then compressed to a pressure, at which the temperature of the compressed working fluid is lower than its initial temperature, heated to a temperature close to its initial temperature and expanded to a pressure close to the initial pressure of the working fluid, simultaneously with the cooling of the working fluid, refrigerant is vaporized, the vapor of which is heated to a temperature close to the initial temperature of the working fluid, and then expanded to a pressure close to the initial pressure of the working fluid to obtain useful work. 2. The method of operation of a gas turbine engine, including cooling the working fluid, its compression, heating and expansion to obtain useful energy, characterized in that the working fluid with the initial temperature and pressure is cooled with a refrigerant to a temperature close to the boiling point of the refrigerant, then compressed to a pressure, at which the temperature of the compressed working fluid is lower than the initial temperature of the working fluid, heated to a temperature close to its initial temperature and expanded to a pressure close to the initial pressure of the working fluid at the same time, along with cooling of the working fluid, refrigerant is vaporized, the vapor of which is heated to a temperature close to the initial temperature of the working fluid, expanded to obtain useful work, liquefied to obtain a liquid and gas fractions, the liquid fraction is returned to the refrigerant circulation circuit, and the gas fraction is compressed to a pressure at which the temperature of the refrigerant vapor becomes higher than the initial temperature of the working fluid, cooled to a temperature close to the temperature of the working fluid, and expanded to obtain useful work you. 3. The method of operation of a gas turbine engine according to claim 1 or 2, characterized in that atmospheric air is used as a working fluid. 4. The method of operation of a gas turbine engine according to claim 1 or 2, characterized in that the working fluid is heated to an initial temperature before cooling with its refrigerant. 5. A gas turbine engine containing a working fluid circuit, consisting of a compressor, a heat exchanger and a turbine arranged in series with a consumer of useful work, characterized in that a heat exchanger-evaporator is installed in front of the compressor and the engine further comprises a refrigerant circuit, consisting of a series connected refrigerant tank, pump, a heat exchanger-evaporator included in the circuit of the working fluid, and a heat exchanger-heater, the output of which is connected to the turbine inlet. 6. The gas turbine engine according to claim 5, characterized in that the engine is equipped with a capacity of the working fluid installed in the circuit of the working fluid in front of the heat exchanger-evaporator and connected to the heat exchanger and heat exchanger-heater heat pipes. 7. A gas turbine engine containing a working fluid circuit consisting of a compressor, a heat exchanger and a turbine with a consumer of useful work, characterized in that a heat exchanger-evaporator is installed in front of the compressor, and the engine further comprises a closed refrigerant circuit, consisting of series connected refrigerant tanks, a pump, a heat exchanger-evaporator included in the circuit of the working fluid, a heat exchanger-heater, a turboexpander with a consumer of useful work, a fluidizer, one of the outputs of which is connected with a refrigerant tank with a pipeline with a pump installed on it, and the other is connected through a compressor for compressing refrigerant vapor and a heat exchanger-superheater with a turbine expander. 8. The gas turbine engine according to claim 7, characterized in that the engine is equipped with a working fluid capacity installed in the working fluid circuit in front of the heat exchanger-evaporator and connected with the heat exchanger, heat exchanger-heater and heat exchanger - superheater with heat wires. 9. The gas turbine engine according to claim 5 or 7, characterized in that it is additionally equipped with a regenerator installed in the circuit of the working fluid, with one of its input connected to the atmosphere, and the output to the heat exchanger-evaporator, the second input connected to the output of the turbine, and the exit is with the atmosphere. 10. The gas turbine engine according to claim 7, characterized in that it is additionally equipped with a regenerator installed in the circuit of the working fluid, with one of its input connected to the capacity of the working fluid, and the output with a heat exchanger-evaporator, the second input is connected to the output of the turbine, and the output is with the capacity of the working fluid.