RU2011110022A - THERMODISSIONAL GAS STEAM TURBINE INSTALLATION - Google Patents

Abstract

 1. Thermo-dissociation gas-steam turbine installation, comprising a thermal-dissociation gas-turbine and steam-turbine installation, placed on one shaft connected to an electric generator for using water as an energy carrier and obtaining useful power, a magnetic filter, a steam generator with an economizer, a refrigerator, a surface heat exchanger, a condenser connected to a heat exchanger , a system for transporting and forcing an electrically conductive liquid, a cooling system, as well as an electric discharge excitation system s comprising a pulse generator, a gas turbine engine using hydrocarbon fuel with the steam generator and a steam turbine for starting installation and output it to the operating mode! a thermodissociation gas turbine installation for generating an energy source and useful power, is made with reactors uniformly spaced around for thermal dissociation of water vapor and hydrogen and oxygen, with high pressure and temperature parameters exceeding 2500 ° C, including nozzles for injecting plasma from an electrically conductive liquid, sequentially placed one after another, registers installed at the inlet of the reactors for rotation of the steam flow, connected on one side with the cylinders and steam a collector connected to the steam line and the steam generator and on the other with a divergent nozzle and the wave-cylinder compressors comprising a water injection nozzle connected to a gas turbine comprising a pipe for discharging the exhaust hydrogen and oxygen and suspended therein particles of a conductive liquid in a magnetic filter,! in this case

Claims (3)

1. Thermal dissociation gas-steam turbine installation, comprising a thermodissociation gas-turbine and steam-turbine installation, placed on one shaft connected to an electric generator for using water as an energy carrier and obtaining useful power, a magnetic filter, a steam generator with an economizer, a refrigerator, a surface heat exchanger, a condenser connected to a heat exchanger , a system for transporting and forcing an electrically conductive liquid, a cooling system, as well as an electric discharge excitation system s comprising a pulse generator, a gas turbine engine using hydrocarbon fuel with the steam generator and a steam turbine for starting installation and output it to the operating mode, a thermodissociation gas turbine installation for generating an energy source and useful power, is made with reactors uniformly spaced around for thermal dissociation of water vapor and hydrogen and oxygen, with high pressure and temperature parameters exceeding 2500 ° C, including nozzles for injecting plasma from an electrically conductive liquid, sequentially placed one after another, registers installed at the inlet of the reactors for rotation of the steam flow, connected on one side with the cylinders and steam a collector connected to the steam line and the steam generator and on the other with a divergent nozzle and the wave-cylinder compressors comprising a water injection nozzle connected to a gas turbine comprising a pipe for discharging the exhaust hydrogen and oxygen and suspended therein particles of a conductive liquid in a magnetic filter, wherein the reactors, expanding nozzles and cylinders of the wave compressors have shirts for circulating the liquid metal coolant in them and cooling them, a magnetic filter for cleaning hydrogen and oxygen from particles of electrically conductive liquid from a liquid metal, including a housing of variable cross section with external thermal insulation and an external magnet, with nozzles for the inlet and outlet of hydrogen and oxygen and a drain pipe for the release of liquid metal, located in the bottom wall of the filter, wherein the drain pipe is connected to a surface heat exchanger for heating the conductive liquid with a liquid metal coolant circulating in the cooling system of the installation, connected to the preparation unit of the conductive liquid and pump nozzles of the reactors, and the pipe for the release of hydrogen and oxygen is connected to a steam generator connected to the refrigerator for cooling hydrogen and oxygen and their inlet into a steam turbine installation, including axial and centrifugal compressors for gas compression, sequentially internal with combustion chambers evenly spaced around the circumference, having a gas distribution mechanism made in the form of a disk-disk rotating around the axis of the valve with holes for the injection of compressed hydrogen and oxygen, including nozzles for igniting gases by injecting gaseous jets of products of thermal decomposition of an electrically conductive liquid expanding nozzles and cylinders of wave compressors containing diffusers and concave reflectors connected to a manifold of a steam turbine having a cartridge a side for discharging the spent steam into a condenser connected to the heat exchanger and economizer of the steam generator, while the combustion chambers, expanding nozzles and cylinders of the wave compressors have jackets for circulating the liquid metal coolant in them and cooling them, connected to the surface heat exchanger to heat the electrically conductive liquid, or the steam generator has a superheater connected to a steam pipe heated by a liquid metal coolant from a cooling system of a thermodissocial gas turbine SETTING, the device surface with economizer heat exchanger heated by a circulating liquid metal coolant in the cooling system of a steam turbine installation and spent coolant exiting the superheater the nozzles for injecting plasma from an electrically conductive fluid contain a housing with nozzles and channels for cooling fluid and nozzles for supplying electrically conductive fluid connected to cylindrical channels located inside the housing in a layer of electrical insulation material, on one side of which electrodes are connected to pulse generators and on the other hand nozzles are made, directed at an angle to each other and communicating with the explosive chamber of the nozzle having a nozzle for the exit of plasma, nozzles for igniting hydrogen and oxygen, contain a housing with nozzles and channels for cooling with liquid and nozzles for supplying an electrically conductive liquid from a concentrated aqueous solution of a strong electrolyte or a suspension of granite or metal powder in an aqueous electrolyte solution, connected to cylindrical channels located inside the housing in a layer of electrical insulation material, on one side of which electrodes are installed, connected to pulse generators, and on the other, nozzles directed d angles to each other and communicating with the explosion chamber injector having a bottom with openings for exit of gas jets. 2. Thermo-dissociation gas-steam turbine installation according to claim 1, characterized in that the reactors on the one hand are made deaf, including combined nozzles sequentially placed one after another to inject a mixture of hydrogen, oxygen and vapor of an electrically conductive liquid, with a high pressure and temperature exceeding 2500 ° C , while in the steam generator of the installation, water is heated and overheated with its supply to the combined nozzles, combined nozzles for injecting a mixture of hydrogen, oxygen and vapors of an electrically conductive liquid, contain a housing with nozzles and channels for cooling liquid and nozzles for supplying an electrically conductive liquid connected to cylindrical channels located inside the housing in a layer of electrical insulation material parallel to the placement of the nozzle for injecting superheated water, s on one side of which electrodes are installed, connected to pulse generators, and on the other, nozzles are made, directed at an angle to each other other and communicating with a blast nozzle chamber having a nozzle for exit of gas jets. 3. Thermal dissociation gas-steam turbine installation according to claim 1, characterized in that the gas turbine is made with conical transitional parts communicating with holes rotating around the axis of the valve disc and combustion chambers, including nozzles for igniting gases by injecting gaseous jets of thermal decomposition products of electrically conductive liquids and nozzles for water injection, the unit’s steam line is connected to a superheater connected in series with a steam generator and an economizer heated by a liquid metal coolant circulating in the cooling system of a thermodissociation gas turbine installation, and the steam turbine outlet pipe is connected to a magnetic filter connected in series to a condenser, a heat exchanger and an economizer of the steam generator filter, while with a surface heat exchanger heated by a liquid metal coolant a body from the cooling system of a steam turbine installation connected to a unit for preparing an electrically conductive liquid.