RU2488021C2 - Airfield power-saving device - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: airfield power-saving device comprises a wind-driven plant with a windwheel, a pedestal on a foundation, a unit developing a jet flow of gases, a gas stripper, a reducer, a hydraulic pump, a water tower, a reservoir and a hydraulic power plant. The wind-driven plant with the windwheel is equipped with a socket and is installed inside the gas stripper. The front wall of the gas stripper is profiled in the form of a funnel. The funnel has a narrowing towards the windwheel for concentration of the jet flow of gases sent to the windwheel. The rear wall of the gas stripper is made as inclined to discharge the jet flow of gases upwards. The windwheel is connected with the reducer that drives the hydraulic pump. The hydraulic pump is connected with the help of pipelines to the water tower and the reservoir. The water tower is connected with the hydraulic power plant.

EFFECT: conversion of energy of a jet flow of gases from unit engines in order to produce electric energy.

1 cl, 2 dwg

Description

The invention relates to wind energy and can be used to recover the energy of the reactive gas stream generated by the engines of the units (aircraft, heat engines, etc.) during the period of their launch, heating, progazazka and checking in the parking lot.

Known wind power installation [SU 1703854, 12.25.89], comprising a tower, a wind wheel with a horizontal axis of rotation, which through a horizontal shaft is connected to a generator placed inside the head mounted on the tower with the possibility of rotation around a vertical axis.

This device for operation requires certain meteorological conditions (the presence of wind), does not provide energy storage and has a complex structure.

Also known is a wind power installation [SU 1325189, 01/07/86], containing a wind wheel with moving cavities, a two-stage multiplier with an intermediate shaft, a coupling, a generator, a control system.

This known solution has a limited resource due to the increased loads that occur in the transmission when the wind wheel is exposed to vibrational power from the wind flow, has increased dimensions, weight, cost and does not provide energy saving for the wind flow.

Closest to the claimed device is a wind power installation [RU 2068117 C1, 10.20.96. Bull No. 29], containing a pedestal with wind turbines installed in it, at least in two tiers, each wind turbine is equipped with a bell, and the pedestal is located on a turntable located on the foundation and has a weather vane. The pedestal is made in the form of a prefabricated whatnot with tubular racks that are rigidly connected to the platform. The shelf is equipped with ceilings, coating, walls with diaphragms of rigidity, and the axis of the wind turbines are rigidly attached to the racks.

This device is notable for its structural complexity, insufficient rigidity and has a low efficiency of using the wind flow.

The technical result achieved by the proposed device is the conversion of the energy of the reactive gas flow of the engines of the units (airplanes, heat engines, etc.) during their start-up, warm-up and inspections at the parking lot, accumulated in the form of hydraulic energy in the water tower for further use in order to obtain electrical energy of specified parameters using hydroelectric power plants (HPS).

The technical result is achieved by the fact that in the well-known airdrome energy-saving device containing a wind power installation with a wind wheel, equipped with a bell, a pedestal on the foundation, an aggregate that creates a reactive gas stream, a gas stripper, a reducer, a hydraulic pump, a water tower, a reservoir, a hydroelectric power station is additionally introduced the reactive gas flow generated by the unit is perceived by a gas baffle, inside which there is a wind wheel, and the front wall is profiled in the form of a funnel, having a narrowing towards the wind wheel to concentrate the reactive gas flow on the wind wheel, and the back wall is inclined to divert the reactive gas flow upward, while the wind wheel is connected to a gearbox that drives a hydraulic pump connected by pipelines to a water tower and a reservoir, and a water head The tower is connected to a hydroelectric power station.

The essence of the invention lies in the fact that in the proposed aerodrome energy-saving device containing a wind power installation with a wind wheel, equipped with a bell, a pedestal on the foundation, an aggregate that creates a reactive gas flow, a gas stripper, a reducer, a hydraulic pump, a water tower, a reservoir, a hydroelectric power station, is additionally introduced this wind power installation with a wind wheel is installed inside the gas baffle, the front wall of which is profiled in the form of a funnel having a narrowing towards three wheels for concentration of the reactive gas stream directed to the wind wheel, and the rear wall is inclined to divert the gas stream up, the wind wheel is connected to the gearbox, which drives the hydraulic pump connected via pipelines to the water tower and reservoir, and the water tower is connected to the hydroelectric power station . The torque generated by the wind wheel is transmitted to the gearbox (multiplier, demultiplier), which drives a hydraulic pump that feeds liquid (for example, water) to the water tower from the reservoir (for example, an open reservoir) in order to obtain the electrical energy of the specified parameters using a hydroelectric station for aircraft maintenance and other needs.

A common feature of the prototype and the claimed device is a wind turbine with a wind wheel, equipped with a bell, and a pedestal on the foundation.

Distinctive features are the unit (aircraft, heat engine, etc.), creating a reactive gas flow, a gas baffle, the front wall of which is profiled in the form of a funnel, having a narrowing towards the wind wheel, and the rear wall is inclined, a gearbox, a hydraulic pump, a water head tower, hydroelectric power station, reservoir (for example, an open reservoir). In this case, the torque generated by the wind wheel is supplied to the hydraulic pump, which feeds the liquid (for example, water) from the reservoir to the water tower. If necessary, the liquid from the water tower at the operator’s command is supplied to the hydroelectric station, where the potential energy of the water column of the liquid (E _p = mgh), where m is the mass of the body, g = 9.8 m / s ² is the acceleration of gravity, h is the height above a zero level, it is converted into electrical energy of industrial parameters, which feeds industrial consumers, a converter can be used to obtain electric current with the parameters required to power the aircraft's onboard systems.

The inventive energy-saving device containing a wind power installation with a wind wheel, equipped with sockets, a pedestal on the foundation for its reliable fastening, characterized in that the reactive gas stream generated by the unit (aircraft, heat engine, etc.) is perceived by a gas picker, inside which there is a wind wheel, and the front wall is profiled in the form of a funnel having a narrowing towards the wind wheel to concentrate the reactive gas flow on the wind wheel, and the rear wall is inclined to divert the reaction the flow upward, while the torque generated by the wind wheel is transmitted to the gearbox, which drives the hydraulic pump that delivers the liquid (for example, water) from the reservoir (for example, an open reservoir) to the water tower, when the liquid is discharged from the water tower to the tank, the liquid passes through the hydroelectric power station, while the potential energy of the water column of the liquid (E _p = mgh), where m is the mass of the body, g = 9.8 m / s ² is the acceleration of gravity, h is the height above the zero level, is converted into electrical energy industrial parameters.

The inventive device is shown in figure 1 - schematic diagram of the device, figure 2 is a side view of the gas striker.

Figure 1 shows an aerodrome energy-saving device that includes the following elements: unit 1, reactive gas stream 2, gas stripper 3, gearbox 4, hydraulic pump 5, water tower 6, hydroelectric power station 7, reservoir 8, consumers 9.

Figure 2 shows a gas baffle (side view), comprising the following elements: a reactive gas stream 2, a wind wheel 11, a front wall profiled in the form of a funnel 10, a pedestal on the foundation 12.

The unit 1 is designed to create a reactive gas stream 2. The gas collector 3 is designed to concentrate and convert the energy of the reactive gas stream 2 into the rotational movement of the wind wheel 11, as well as the removal of the reactive gas stream up. The wind wheel 11 transmits the torque through the gearbox 4 to the hydraulic pump 5. The hydraulic pump 5 delivers the liquid (for example, water) to the water tower 6, from the reservoir (for example, an open reservoir) 8. When the liquid is discharged back through HES 7, the potential energy of the liquid water column converted to electrical energy industrial parameters.

The device operates as follows.

Unit 1 is installed at the technical position for preparation so that the reactive gas flow has a direction to gas stripper 3. During the preparation of the unit, it is launched, heated and gas-fired. The jet stream 2, falling onto the gas baffle 3, concentrates on the front wall 10, shaped as a funnel, and drives the wind wheel 11, the torque is transmitted to the hydraulic pump 5 through the gearbox 4, which delivers the liquid (for example, water) to the water tower 6 from the reservoir (for example, an open reservoir) 8, thereby accumulating the energy of the reactive gas stream in the form of hydraulic energy. When water is discharged from the water tower to the reservoir, the liquid passes through the hydroelectric power station 7, the potential energy of the water column of the liquid (E _p = mgh) is converted into electrical energy of industrial parameters, which is supplied to power consumers 9.

The manufacture of the device can be made from units and assemblies commercially available from industry.

Claims (1)

An aerodrome energy-saving device containing a wind power installation with a wind wheel, equipped with a bell, a pedestal on the foundation, characterized in that it is additionally introduced a unit that creates a reactive gas stream, a gas stripper, a gearbox, a hydraulic pump, a water tower, a reservoir, a hydroelectric power station, while a wind power installation with a wind wheel installed inside the gas baffle, the front wall of which is profiled in the form of a funnel having a narrowing towards the wind wheel to concentrate the reaction ivnogo gas flow directed towards the wind wheel and the rear wall is inclined to divert the reactive gases flow upward due to the wind wheel gear driving the work hydraulic pump connected via pipelines to the water tower and the reservoir, and the water tower associated with hydroelectric plant.

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