SU969954A1 - Wind power plant - Google Patents

Description

(5) WIND POWER INSTALLATION

one

The invention relates to wind energy and can be used for electricity and heat supply of individual isolated consumers.

A wind turbine installation is known that contains a wind turbine kinematically connected to a pump having a pressure and suction nozzle, a heat accumulator, a heater, a heat exchanger and a circulation pump.

However, a disadvantage of the known wind power installation is the inability to supply isolated consumers with electricity, which reduces its functionality.

The purpose of the invention is to expand the functionality of the wind power plant.

This goal is achieved by the fact that. The wind power installation additionally contains a generator and driving hydraulic motors of the circulation pump and generator, a heater, a heat exchanger and a hydraulic motor driving the circulation pump are sequentially connected to each other along the fluid path and arranged (in the heat accumulator, one from the outlets of which is connected to the hydraulic motor of the generator drive, the other to the heater, and the suction nozzle is connected to the hydraulic motor of the circulating the pump.

The drawing shows a diagram of a wind power installation.

wind turbine contains wind turbine 1, kinematically associated with pump 2, having pressure and suction nozzles 3 and 4, heat accumulator 5, heater 6, heat exchanger 7 and circulation pump 8. The installation further comprises an electric generator 9,

396995 4

drive hydraulic motor 10 of circulator 5 through heat exchanger 7. Cooling pump 8 and drive hydraulic in heat exchanger 7 working fluid engine 11 of generator 9. flow to hydraulic drive drive Heater 6, heat exchanger 7 body of circulating pump 8 and driving hydraulic motor 10 of drive circulator The system through pipeline 17 enters the ration pump 8 in series with the co-pipeline 15 of the pump 2. The pipeline 15 is connected to each other along the fluid-connected line also with the drain line and is located in the thermal accumulator-hydraulic engine 11 rivoda generator 5, on the discharge port 3 2ra pump 9 through a conduit 16 and a valve 12 dividing stream yuposredstvom with heat pipe H -one of whose outlets is connected izoli pqvannym expansion tank 13 to the hydraulic motor 11 generates the actuator working fluid.

torus 9 is different to heater 6, and the power of the wind turbine 1 and the suction inlet 4 is connected to the hydra-sa 2 exceeds the power of the hydraulic motor of the circulation pump-5tel 11 and its generator 8.para 9 due to this wind turbine The speed of the working fluid is provided by the heat of the wind, lower than that calculated for the no-insulated expansion tank 13, of minal power and does not require the installed above all other hourly-20 full-fledged starting devices. and associated with its Ele-Low speeds wind flow along the pipelines For the ST-2 valve shutoff valve 12 12, the flow divider valve 12 is heated to the drive by a hydraulic engine. 6, piping 18, al 11 and generator 9 are applied. The power generation by the hydraulic motor 11 - the piping 19.25 plo 9 is given to the consumer (not yet operated by the wind power plant).

Claims (1)

melts as follows. When the wind speed increases, wind motor 1 converts the power of the wind wheel's rotational speed into mechanical energy, the wind turbine 1's power and co-operation, and the torus feed through the kinematic link of the pump 2 will exceed the flow through the drive of the pump 2 (for example , dividing the flow 12 into the geo-volume hydraulic pump drive; serving for the reactor 9, then a part of the working fluid pumping of the working fluid ;. The flow will pass through the heater 6, where the discharge nozzle 3 is the working fluid energy of the wind turbine The converter converts the pressure into valve 12c into heat heated as a result of throttling of the flow, where the fluid flow of the working fluid liquidation and the housing is divided into two systems, and the heater's class 6. Subsequently, the hub 12 performs the function of adjusting the wind speed and frequency of the throttle The pipeline 19 for the propeller, the power of the heat-displaced flow of liquid by flow, which is automatically flown, is stepped onto the drive of the hydraulic motor 11, in the heater 6, in proportion to increment generates Vai-power wind turbines, 9 Torr, and the flow through conduit 18 PA-heated water from the heat akkumubochey fluid is fed to the smb nagrevate torus 5 lu is supplied to the consumer circulation 6, which is a pump 8. drosselnoetsionnym device or a disc brake. The heat elimination Wind turbine 6 is located inside the heat installation consists in using the battery 5, which is made in the wide range of wind speeds, de-insulated capacity with heat, which increases the total annual scavenger, for example with water. In the heating of the energy by the installation, it expands the sensor b and converts its functionality, energy deprivation, moving under the pressure of the liquid of the bone energy consumers, into heat, which is partially dissipated, goes to heat the heater body and through it is transferred to the heat carrier battery, and a partial formula of the invention but heats the output of the heater 6 from the working fluid 6 and also transfers the wind power installation, is compatible with the heat carrier of the heat accumulator wind turbine kinematically associated with a pump, porous injector and suction nozzles, a heat accumulator, a heater, a heat exchanger and a circulation pump, so that, in order to enhance the functionality, it additionally contains a generator and driven The hydraulic motors of the circulation pump and generator, heater, heat exchanger and hydraulic motor-t, the drive of the circulation pump are sequentially interconnected along the fluid path and are located in the heat exchanger by means of an accumulator anovlen flow dividing valve, one of whose outputs is connected to drive a generator gidrodvigatelp, the other - to the heater, and a suction nozzle coupled with the drive gidrodvigptelem circulation pump. Sources of information taken into account in the examination 1. Application of Germany and 2901997, cl. F 03 O 9/00, opG. 1980