WIND-DRIVEN THERMAL POWER PLANT Russian patent published in 2012 - IPC F03D1/04 

FIELD: power industry.

SUBSTANCE: wind-driven thermal power plant includes wind thermal engines with turbines connected to electric generators and arranged in housings having confusers for air flow supply to turbines with gas-air jet generators installed in them on one side, and shaped rings installed on the other side, which are located coaxially with housings and automation systems with drive mechanisms, which are made with them in the form of ejectors, fuel systems and electric pulse generators. Each wind thermal engine is equipped with two-stage turbine for operation on wind energy and combination turbine for operation on energies of hydrocarbon fuel and wind; at that, two-stage turbine includes shaped ring of ejector. In confuser of combination turbine there arranged is generator of gas-air jets in the form of wave non-compressor air jet engine containing air intake including diffuser connected to conical part connected to combustion chamber. Combination atomiser is arranged in combustion chamber and opposite to it there located is atomiser for injection of products of electric explosion of conductive fluid jets, for ignition of mixture. Combustion chamber is connected to converging nozzle and elongated cylinder having the diverging nozzle arranged in receiving chamber of ejector made in the form of conical ring connected to mixing chamber. Combination atomiser includes external housing with conductive fluid supply nozzles connected to cylindrical channels located inside the housing in the layer of electric insulating material parallel to fuel atomiser arrangement. On one side of cylindrical channels there installed are electrodes connected to electric pulse generator, and on the other side there made are nozzles directed at an angle to each other and interconnected to atomiser explosion chamber having the bottom with gas jet outlet holes. Atomiser for injection of products of electric explosion of conductive fluid jets, for ignition includes external housing with conductive fluid supply connection pipes, which are connected to cylindrical channels located inside the housing in electric insulating material layer. On one side of cylindrical channels there installed are electrodes connected to electric pulse generator, and on the other side there made are nozzles directed at an angle to each other and interconnected to atomiser explosion chamber having the bottom with holes.

EFFECT: invention allows simplifying the gas source design for actuation of turbines and reducing the weight of thermal power plant.

9 dwg