RU152364U1 - WIND HEAT POWER PLANT - Google Patents

Abstract

A wind-thermal power plant comprising a plant body, a wind wheel horizontally mounted on a vertical shaft connected to a consumer, characterized in that it comprises a gear-reducer mounted in the lower part of the body on a low-speed vertical shaft and connected to a thermal installation consisting of a centrifugal pump and a vortex hydraulic heat generator, and the rotational energy of the centrifugal pump is transferred to the vortex heat generator, which heats the circulating in a closed Ntur coolant.

Description

The utility model relates to wind energy and the use of wind energy to generate heat to provide isolated facilities and supply heat to local or centralized power systems.

Known thermal eddy power plant for energy, containing a pipe with a vortex generator, wind wheels mounted on a vertical shaft and an electric generator, as well as an additional vortex generator, deflector, air heating system with pipes (RF patent No. 22070660, IPC F03D 3/04, 1996 , BI No. 35).

A disadvantage of the known solution is the design complexity in operation and large hydraulic losses during the organization of the swirl of the incoming air flow.

Known wind power installation that converts wind energy into electrical, mechanical and other types of energy, which contains air intakes, a main duct and an air turbine, which accommodate an air turbine, a rotating load, for example, an electric generator, pump, millstone (RF patent No. 2147079, IPC F03D 3/04, 2000, BI No. 9).

A disadvantage of the known solution is the mandatory connection of energy converters and the complexity of the design.

Closest to the proposed utility model is a wind thermal installation, which can be used to drive electric generators, a hydraulic pump and other payload mechanisms of small autonomous energy in various sectors of the economy, (RF patent No. 2248849, IPC F03D 3/04, 2004, BI No. 2 ) The known wind-thermal installation comprises a tower casing, consisting of a lower confuser part with tangentially directed inlet channels with air flaps inclined to its vertical axis, an upper diffuser part with a deflector, a wind wheel mounted horizontally on a vertical shaft, an additional confuser channel located in the lower part of the tower, the shaft is connected to the consumer, and heat sources are located in the lower part.

A disadvantage of the known solution is the complexity and cumbersome design and the inability to obtain thermal energy.

The objective of the utility model is to create a wind-thermal power plant that converts wind energy into thermal energy.

The technical result from the use of the proposed utility model is the use of wind energy due to the torque from the wind wheel without an electric generator and the electrical part of the wind turbine and simplification of the design.

The above technical is achieved by the fact that the proposed wind energy installation for generating thermal energy, comprising a tower casing, a wind wheel, a horizontally mounted vertical shaft connected to the consumer, includes a gear reducer mounted in the lower part of the casing on a low-speed vertical shaft, and connected to a thermal installation, consisting of a centrifugal hydraulic pump and a vortex heat generator, and the rotational energy of the centrifugal pump is transferred to the vortex heat generator and that heats the circulating coolant in a closed circuit.

In the proposed wind turbine, the torque from the wind wheel through the gearbox-multiplier rotates the centrifugal pump, the rotation energy of which is transmitted to the vortex heat generator and heats the liquid circulating in a closed circuit. Warm water is transferred from the heat accumulator to the consumer. In this case, a standard blade wind turbine is used.

The proposed utility model is based on the use of the physical features of the “vortex effect”, which is implemented in the “Vortex hydraulic heat generator”. This is a device that generates heat by changing the physicomechanical parameters of a liquid medium during its flow under the complex influence of accelerated and inhibited movement. The acceleration of the flow is achieved by creating a vortex in the swirl systems of the vortex heat generator flow with a simultaneous narrowing of the flow in the confuser, and braking by its subsequent expansion in the cavitation pipe of the heat generator and the flow swirling at the outlet of the cavitation pipe. (Merkulov A.P., Vortex effect and its application in engineering, M. Mechanical Engineering, 1969).

The essence of the utility model is illustrated by the drawing, which shows a general diagram of a thermal power plant.

A thermal thermal power plant for generating thermal energy comprises a housing 1 standard blades 2 mounted on a low-speed shaft 3, a gear-reducer 4 connected via a horizontal shaft 5 to a centrifugal pump 6 and a vortex heat generator 7, which is a thermal installation that is connected to a heat accumulator 8, a heat exchanger 11 is placed in the battery, into which heated coolant is supplied and circulated through pipes 10, and heated water is discharged through pipes 9 to the consumer.

Thanks to the unification of the nodes, the simplicity of manufacturing and assembling a wind power installation for generating thermal energy is ensured.

The proposed wind thermal power plant operates as follows.

In a wind-driven thermal installation, acting on blades 2 connected by a low-speed shaft 3 with a gearbox-multiplier 4, the air flow rotates with its torque, the centrifugal pump 6 connected with it, the rotational energy from which is transferred to the vortex heat generator 7, and the coolant circulating in its closed circle is heated . Then, through the pipelines 10, the coolant is supplied to the heat accumulator 8, from which warm water enters the consumer through the pipelines 9.

Claims (1)

A wind-thermal power plant comprising a plant body, a wind wheel horizontally mounted on a vertical shaft connected to a consumer, characterized in that it comprises a gear-reducer mounted in the lower part of the body on a low-speed vertical shaft and connected to a thermal installation consisting of a centrifugal pump and a vortex hydraulic heat generator, and the rotational energy of the centrifugal pump is transferred to the vortex heat generator, which heats the circulating in a closed Ntur coolant.

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