RU2014110432A - THERMAL DISSOCIATION STEAM-GAS-TURBINE INSTALLATION - Google Patents

Abstract

Thermo-dissociation steam-gas-turbine installation, comprising a steam-turbine installation with a steam condenser, a starting engine and an electric generator connected to an electric panel, a thermo-dissociation gas-turbine installation with an electric generator connected to an electric panel and plasma-chemical reactors connected to a power source connected to an electric panel, an overheated water discharge economizer spent mixture of hydrogen and oxygen from a thermal-dissociation gas turbine unit with a temperature of 550-600 C, water tanks, a pump and a steam generator, a refrigerator for cooling a mixture of hydrogen and oxygen worked out in an economizer, connected to a storage tank of a mixture of gases - hydrogen and oxygen, a cork valve and a nozzle of an axial compressor of a steam turbine installation, a steam generator connected to a cooling system of a steam turbine and thermodissociation gas turbine installations on a liquid-metal coolant connected by a steam line to a steam collector of a thermodissociation gas turbine installation - steam turbine installation for the combustion of hydrogen with oxygen and for obtaining useful power on an electric generator and an electric panel and for burning hydrocarbon fuel mixed with compressed air and for obtaining useful power for starting a thermodissociation gas turbine unit, it is made with an axial compressor connected in series with cylinders and combustion chambers uniformly arranged around the circumference , with expanding nozzles and cylinders of wave compressors connected to a steam turbine mounted on a shaft, on one side connected to the electric

Claims (1)

 Thermo-dissociation steam-gas-turbine installation, comprising a steam-turbine installation with a steam condenser, a starting engine and an electric generator connected to an electric panel, a thermo-dissociation gas-turbine installation with an electric generator connected to an electric panel and plasma-chemical reactors connected to a power source connected to an electric panel, an overheated water discharge economizer spent mixture of hydrogen and oxygen from a thermal-dissociation gas turbine unit with a temperature of 550-600 C, water tanks, a pump and a steam generator, a refrigerator for cooling a mixture of hydrogen and oxygen worked out in an economizer, connected to a storage tank of a mixture of gases - hydrogen and oxygen, a cork valve and a nozzle of an axial compressor of a steam turbine installation, a steam generator connected to a cooling system of a steam turbine and thermodissociation gas turbine installations on a liquid-metal coolant connected by a steam line to a steam collector of a thermodissociation gas turbine installation, - a steam turbine installation for burning hydrogen with oxygen and obtaining useful power on an electric generator and an electrical panel and for burning hydrocarbon fuel mixed with compressed air and obtaining useful power for starting a thermodissociation gas turbine installation, is made with an axial compressor in series with cylinders and combustion chambers, uniformly located around the circumference, with expanding nozzles and cylinders of wave compressors connected to a steam turbine mounted on the shaft, with one the sides are connected to the electric generator, and on the other to the axial compressor, while nozzles are placed on the combustion chambers for igniting a mixture of hydrogen with oxygen or a mixture of hydrocarbon fuel with compressed air by injecting gaseous jets of products of thermal dissociation of an electrically conductive liquid at a temperature exceeding 2500 ° C and combined nozzles for injecting a gaseous mixture of products of thermal dissociation of electrically conductive liquid and hydrocarbon fuel, connected to the fuel catfish and the tank with fuel, - while the combustion chambers, expanding nozzles and cylinders of the wave compressors have shirts for circulation and cooling of the walls with a liquid metal coolant, - axial compressor, contains a receiving chamber with a pipe for inlet of a mixture of hydrogen and oxygen and a cover for the inlet of atmospheric air, - a thermodissociation gas turbine installation for generating a source of energy - hydrogen and oxygen and useful power on an electric generator and an electrical panel, is made with plasma-chemical reactors uniformly spaced around the circumference for thermal dissociation of water vapor and production of hydrogen and oxygen with a temperature exceeding 2500 ° C and high pressure, connected to a power source communicating on one side with a valve disc having openings for steam inlet and annular labyrinth seals rotating I with a given frequency, with a steam collector, and on the other connected to expanding nozzles and cylinders of wave compressors having nozzles for injecting water or liquid metal into them, connected to a gas turbine mounted on a shaft connected to an electric generator equipped with an exhaust pipe for exhausting hydrogen and oxygen to the economizer, - in this case, plasma-chemical reactors for thermal dissociation of water vapor and production of hydrogen and oxygen with a temperature exceeding 2500 ° C, expanding nozzles and cylinders of wave compressors have shirts for circulating coolant - a liquid metal coolant or water for cooling the walls of the nozzles-anodes of plasma-chemical reactors, - plasmochemical reactors, contain a casing with a jacket communicating with a cooled nozzle-anode, with a cathode electrode located in the casing at a predetermined distance from its walls, mounted in a device connected to a power source, with a nozzle for injection of an easily ionizing additive placed in the casing or - several plasma chemical reactors located in one block, contain casings with a jacket and a cover, with cathodes fixed to the casings at a predetermined distance from their walls in the insulation layer, communicating with cooled nozzles-anodes and expanding nozzles and cylinders of wave compressors, - at the same time, on the block of plasma chemical reactors there is a valve mechanism with an inlet valve for the inlet of water vapor, - a valve mechanism includes a steam inlet pipe connected to a steam manifold connected to the plasma chemical reactor bodies, with an inlet valve located on the manifold with a limiter and a spring for water vapor inlet, - a nozzle for igniting hydrogen with oxygen, contains a housing with nozzles for inlet of an electrically conductive liquid, connected to cylindrical channels located inside the housing in a layer of insulating material, on one side of which electrodes are installed connected to a pulse generator, and on the other there are nozzles directed under nozzles communicating with the explosive chamber having a bottom with openings for the exit of gas jets, the combined nozzles containing a housing with nozzles for For the supply of electrically conductive fluid, connected to cylindrical channels located inside the housing in a layer of insulating material, parallel to the placement of the fuel nozzle, on one side of which electrodes are connected to the pulse generator, and on the other there are nozzles directed at an angle to each other and communicating with explosive chamber nozzle having a nozzle for the exit of gas jets.