RU96117764A - METHOD FOR PRODUCING ELECTRIC POWER AND AROMATIC HYDROCARBONS AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (8)

1. A method of producing electricity and aromatic hydrocarbons, comprising multi-stage catalytic aromatization of a wide fraction of light hydrocarbons in a number of reactors with preliminary and intermediate heating and subsequent combustion of part of the products of catalysis reactions in the high-pressure combustion chamber of a gas turbine drive of an electric generator to generate electricity, characterized in that in the chamber high-pressure combustion as a fuel serves only gaseous hydrocarbons of the catalysis process and only th flow, which is needed for maintaining a constant predetermined electric power and loss compensation in the exhaust line of the actuator and the remainder of the gaseous hydrocarbon is fed to the secondary needs, for example, for heating the raw material and reactors, the whole resulting liquid catalysate withdrawn into the collection container commodity.  2. The method according to claim 1, characterized in that the coolant is pumped in the reactor-thermal blocks, or in a heating furnace, by suction of the spent gaseous coolant with a feed ejector installed in the exhaust line of the gas turbine drive.  3. The method according to claim 1, characterized in that part of the gaseous hydrocarbons is sent for combustion in a low pressure combustion chamber installed on the exhaust line of the gas turbine drive of the electric generator, in front of, or in a waste heat boiler.  4. A combined power plant comprising a gas turbine drive of an electric generator with a high-pressure combustion chamber, an exhaust line and a catalytic circuit with a number of catalytic reactors, a condenser and at least one catalytic separator, and discharge lines from the gas and liquid hydrocarbon separator, characterized in that the discharge line from the gaseous hydrocarbon separator is connected to a high-pressure combustion chamber of a gas turbine drive.  5. Installation according to claim 4, characterized in that each reactor is installed in its own reactor-thermal unit with an air inlet, a combustion chamber with working nozzles, a heater and an exhaust pipe, and the exhaust line of the gas-turbine drive is equipped with a feed ejector, the rarefaction chamber of which is connected to the exhaust pipes of the blocks.  6. Installation according to claims 4 and 5, characterized in that the discharge line from the gaseous hydrocarbon separator is connected to a fuel supply for the working nozzles of the reactor-thermal units.  7. Installation according to claim 4, characterized in that a low-pressure combustion chamber and a waste heat boiler are installed in the exhaust line of the gas-turbine drive, and this chamber is connected to the line for removing gaseous hydrocarbons from the separator.  8. Installation according to claim 5, characterized in that a raw material heater is installed in the exhaust line of the gas turbine drive, having the ability to connect it to the working feed line.