FR2829805A1 - Electrical energy production by compressed air pulse, wind driven generator has reserve of compressed air to drive wind turbine - Google Patents

Abstract

System uses a reserve of pulsed compressed air (1) on a support, in which are fixed one or more ramp type orifices, with air output pipes (3). The wind speed drives a turbine (12) directly or indirectly coupled to an alternator, or dynamo, or generator (7). The alternator supplies electrical energy to the air reserve compressor group (2).

Description

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The invention relates to a device, designed to create a continuous movement of pulsed compressed air at low, medium or high speed. This air drives propellers, paddle wheels, impellers, or bucket propellers mounted on shafts and bearings. Their rotation recovers mechanical energy and can animate various machines or transform this energy into own permanent electrical power.

This device consists of a reserve of compressed air, of height H, of length L and of width 1 sufficient, placed on a concrete support or on the ground. The pulsed compressed air outlets are connected to part of the reserve. Part of this capacity of compressed compressed air drives a propeller with its axis and its rotation bearing, directly or indirectly coupled to one or more alternators, one or more dynamos, one or more hydraulic pumps, one or more generators. The amount of compressed compressed air is less than the amount of compressed air entering the compressor unit.

The device according to the invention is particularly intended for producing mechanical energy by rotation of the propellers, paddle wheels, paddle wheels with their air diffuser. The aim is to train machines or transform them into clean permanent electrical energy.

Current electrical energy production is based on the transformation of hydraulic energy and combustion heat exchanges, such as gas, oil, coal, nuclear and wind turbines.

Wind turbines require a constant and regular wind. Otherwise, the absence of wind or a strong wind can shut down or damage these wind turbines.

Combustion and fission devices are very expensive, due to their extraction, their purchase, their treatment, the maintenance of all auxiliaries. The environment is also a strict constraint, because it is a question of respecting the regulations as regards treatment of rejections, treatment of cooling water, lubricants required for thermal engines.

Major incidents, for significant damage (engines out of service) or premature wear of auxiliaries, have serious consequences on energy production and can cause interruptions harmful to users.

Similarly, the transport of electrical energy (subject to very low or very high temperatures), severe weather (such as storms or other natural disasters) cause significant damage to the network, causing sudden production stops.

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The device according to the invention overcomes all the drawbacks mentioned above. It eliminates pollution of air, soil, water, as well as any visual inconvenience (example wind turbine or chimney), or other nuisance (odor, noise).

The additional and non-negligible advantage is its cost of implementation, which is much lower than that of any usual energy production system.

The present invention relates to a device with a reserve of compressed compressed air, installed to create a perpetual movement of air at high speed. This movement must animate propellers, vane propellers, bucket propellers, vane propellers, propellers with intra-animated rotation, mounted on axes and bearings, from which the energy produced by their rotation is recovered. This energy can be used to power various machines or be transformed into clean permanent electrical energy.

This device consists of a compressed air storage (1), positioned on its support, having one or more orifices (3) (in vertical or horizontal alignment) for the outlet of compressed air. According to particular production processes, the forced air leaves with an air flow or shutdown adjustment, located at the outlet or at the inlet. The compressed compressed air strikes against the propeller (12), which can have different design models.

Designated by the sectional figures with the axis and the rotation bearing show the device.

A dynamo or an alternator (7) or a generator is connected to the air compressor unit (2) of the reserve to produce a continuous movement of air circulation at high speed, whatever the atmospheric conditions of the place where the device is located.

Increasing the speed and directional control of the forced air will further increase energy production.

The transmission will be made directly to the propeller (15) fixed to its axis, coupled directly or indirectly to an alternator (7) or a dynamo by means of a mechanical transmission angle gearbox to speed reducers or speed multipliers, coupled to alternators, dynamos fixed on platforms.

Thanks to small, medium or large capacity devices, continuous or alternative electrical power can be obtained. This power, ranging from 0.5 to several KWH, is given by one or more propellers (15) which can actuate one or more mechanical transmission shafts (5).

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The latter operate water pumps, piston, with an eccentric or crank shaft control, or any other mechanical system requiring motor power to operate in all non-electrified places, having difficulties in supplying conventional energy (petrol , oil, gas).

The propellers (15) or wheels (11) of different models of mechanical force transmission of small, medium or large power will be mounted inside an empty casing or cover or ferrule.

This casing or protective cover will be in two parts, to facilitate disassembly for periodic maintenance and the replacement of defective parts of the device.

Small, medium or large capacity devices can very easily be transported by truck and set up just as easily for electrical repairs anywhere.

For example: in the desert for pumping water, private houses, farms, factories of all types, as well as all means of electric transport. This device can be permanently installed in these same places.

In reality, the proposed device can have many applications.

PROCESS The supply of compressed compressed air (1) can be small, medium or very large. Its construction is made of light materials, existing on the market. These materials are resistant to air pressure, weather and weather. This reserve of forced compressed air will rest on a concrete, steel, etc. platform.

The forced air outlets will be placed vertically or horizontally and made of all materials resistant to air pressure and speed. These pulsed compressed air diffusers can be of any shape and must be protected by covers. The adjustment of the compressed compressed air flow for small, medium or large capacity will be controlled by electric opening or closing valves already existing on the market.

The ambient air capture device (compressor group) (1) can be installed either in a position below or above the reserve of compressed air. This will be protected by grilles to prevent any entry of foreign bodies, which could hinder the proper functioning of the air intake.

One or two closing or opening flaps will be installed in the lower position or in the lower and upper position of the ambient air capture device. They can be in one or more pieces, made of various materials, of various shapes, of variable thickness, watertight thanks to seals positioned on their support, in the closed position which are not shown in the diagrams.

The device includes a manual or electric system for a first pressurization of the reserve.

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The device according to the invention comprises one or more propellers, bucket propellers (12), intra-animated rotation propeller (4) (by injection of compressed air pulsed inside the axis + blade) or any other type of manufacturing.

The size and shape of this propeller will depend on the device used. The propellers can be with one, two or more blades or buckets (12), mounted on the propeller or paddle wheels (11), or with fins.

The device according to the invention may include a speed reducer, coupled to an alternator, a dynamo or a hydraulic pump or generator.

The device according to the invention can comprise a speed multiplier (6), coupled to an alternator, a dynamo or a hydraulic pump or a generator (7), as well as a bearing (15) for supporting and guiding the shaft. transmission (5) of power to an alternator (7), a dynamo, a hydraulic pump, etc ...

The device according to the invention comprises an alternator (7) of small, medium or large power, which exists on the market. The purpose of this alternator (7) is to supply electrical energy to the compressed air compressor (1) pulsed from the reserve.

The source of energy thus becomes inexhaustible.

The assembly of the device can therefore be of small, medium or large capacity. Its power can vary, from 0.5 to several KWH, depending on current technologies.

All parts of this device can be mounted in series on platforms.

The latter will thus support the supply of pulsed compressed air (1), the propeller (4) (wheel, etc.), the alternator (7), the speed reducers or the multipliers (6); the whole is actuated by mechanical angle transmission with transmission shaft (5) supported by bearings (10).

The generators (7), alternators or dynamos for supplying varied electrical power can be of different voltages depending on the installations to be supplied with electrical energy.

The device, according to the invention, of small, medium or large energy power can be connected to the electrical energy transport and distribution networks existing in each country. It will then be a question of taking all the precautions of installations inherent in these electrical protections, ensuring the sustainability of energy production installations, identical to existing power plants.

The device, according to the invention, of small, medium or large power can be remote-controlled or radio-controlled remotely and monitored by synoptic tables, in order to carry out the maneuvers of stopping or putting into service.

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 The figures depicting the above process are attached. They are detailed below.

Figure 1/10: Sectional view of the entire installation device with:. supply of forced air (1). air compressor (2) propeller with buckets (12) bearing (10). transmission axis (5). speed multiplier (6). generator (7). compressed air cannon (3) Figure 2/10: Represent in section the entire system of the installation with:. supply of forced air (1). air compressor (2). compressed air outlet (3) propeller (15). ferrule (9). axis of rotation (5) bearing (10). speed multiplier (6). generator (7) Figure 3/10: Represent in section the operation of the propeller with intra-animated rotation with:. compressed air reserve (1). compressor (2). compressed air cannon (3) bearing (10) propeller with intra-animated rotation (4). axis of rotation (5). speed multiplier (6) Figure 4/10: Shows the entire device in section:. reserve of compressed compressed air (1). compressor (2). air cannon. bucket propeller (12). axis (5). speed multiplier (6). generator (7)

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 Figure 5/10: Represented in section the whole device with a bucket propeller:. forced air cannon (3). support structure (8) propeller (4) bearing (10). axis of rotation (5). speed multiplier (6). generator (7) Figure 6/10: Sectional view of the impeller:. vanes (11). axis (5). ramp of compressed compressed air (3). compressed compressed air (1). support structure (8). bearing (10) Figure 7/10: Represent a square propeller + ferrule assembly and cylindrical helix / ferrule assembly:. ferrule (9) propeller (4). axis (5) Figure 8/10: Shows in section the assembly of a compressed air outlet ramp:. compressed compressed air (1). air outlet (3). support structure (8) propeller (15). axis (5). bearing (10) Figure 9/10: Represented in section the propeller with intra-animated rotation: * cannon with pulsed compressed air (3) propeller with intra-animated rotation (4). axis of rotation (5). support structure (8) bearing (10). drive pinion (14). speed multiplier (6)

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 Figure 10/10: Represented in section an intra-animated propeller with adjustable deflector:. axis (5) propeller with intra-animated rotation (4). compressed compressed air (3). air deflector (13) Figure 11/11: Sectional view of the entire device:. compressed air reserve (1). compressed air cannon (3) bucket propeller (12). axis ((5). alternator (7). compressor (2)

Claims (9)

CLAIMS 1) The device is designed to create mechanical energy, by supplying pulsed air. This device comprises a reserve of pulsed compressed air (1) on its support, in which are fixed one or more orifices) ramp type, with air outlet nozzles (3). The wind speed will activate the propeller (4) with its axis (5) and its rotation bearing, coupled directly or indirectly to an alternator (7) (or of), a dynamo (or of), a generator (or ); the alternator supplying electricity to the reserve air compressor unit (2). This device can be mounted in series (Figure 4). It can be small, medium or large capacity. 2) According to claim above, the device is characterized in that the main element of the assembly, that is to say the reserve of pulsed compressed air (1), with its different types of orifices (3) and the different types of propellers (4) or wheels (Figure 6). 3) According to claims 1 and 2, the device is characterized in that the orifice (air cannon type) or the orifices or types of ramp (3), which can be placed horizontally or vertically, depending on the energy required or the place where the device is to be installed. 4) The device according to claims 1, 2 and 3 characterized in that the propeller, the propeller with intra-animated rotation (4), the impeller, paddle wheel (Figure 6) or bucket, mounted on its axis (5) and its rotation bearing (10) and coupled to a mechanical bevel gear and a drive shaft, this device takes into account different elements of transformation of mechanical energy installed on p1atefonnes. 5) According to the preceding claims, the device is characterized by the assembly. It can be executed with several devices, mounted one after the other and forming a chain (Figure 6), thanks to a mechanical box actuating several dynamos, alternators, generators (7), etc ... 6) According to claims 1 and 2, in that the device has a flow rate and a speed of the circulating air controlled by automatic closings or openings, which are not shown in the diagrams presented. <Desc / Clms Page number 9> 7) According to one of the preceding claims (1), the device is characterized in that the establishment of a ferrule (9) adapted to the shape of the different types of propellers or impellers, for better energy from the circulating air. 8) Device according to any one of the preceding claims, characterized in that the devices for the first start-up have a system for pressurizing the manual or electric reserve, which is not shown in the diagrams. 9) Device according to any one of the preceding claims, characterized in that the quantity of compressed air leaving (3) is less than the quantity of compressed air returning (2) by the compressor unit.