DE2901997A1 - Wind powered heating circuit - has sails on wind tower driving eddy current brake for producing heat for heat exchange fluid - Google Patents

Abstract

The installation for detaining heat from wind power has a tower with a rotor on top, driven by a set of blades or sails in the manner of a windmill. The rotor is connected by a belt drive with a bladed rotoro or paddle wheel immersed in a liquid operating in the manner of an eddy current brake. The liq. is enclosed by a vessel and is heated by the braking effect. The vessel is housed inside a tank contg. another liq. which forms a heating medium and receiver heat by heat transfer from the first liquid. This medium is then circulated around a heating circuit which can include pumps, radiators and a hot water storage tank.

Description

Method and apparatus for obtaining

Thermal energy by means of a wind power machine The invention relates to a method and a device for generating thermal energy by means of a wind power machine, which consists of at least one rotor mounted on a tower, in which the Natural wind energy is converted into usable mechanical energy, and this energy is then transferred to a consumer point.

The previously known wind power machines have mainly been used for pumping water and generating electricity.

More recently, attempts have been made to generate thermal energy by means of wind power machines to win.

So far, however, it has not been possible to find an economical process to develop for this. It is already a wind power machine for generating heat energy became known, however, this is suitable due to the high construction costs and the relatively large design only for very special applications. By means of the wind power machine in the known system, agitators are in large Water tanks driven, which causes the water due to the constant movement warmed up.

However, only temperatures of 35 0C - 400C are reached in this way.

However, since they are used to heat apartments and houses, they are considerably higher Temperatures are required, it was necessary to use the agitators to make it possible to use additional heat pumps that the heated water Bring to usable temperatures.

The disadvantages outlined above and, moreover, the inevitable Dependence on the electric current leave an economical use of such Systems hardly closed.

The object of the invention was therefore to avoid these disadvantages, So to create a system that on the one hand is small in construction and on the other hand is inexpensive to purchase in relation to the benefit.

On the other hand, a supply of thermal energy should then also be possible be when the electrical power fails. This object is according to the invention Method solved in that the mechanical energy at the consumer point in Thermal energy is converted to directly usable consumer temperature, and that the heat energy gained is fed into the consumer circuit.

A device is used to carry out the method according to the invention proposed, which is expedient that at the consumer point to convert the mechanical energy in thermal energy a device like a water vortex brake it is provided that this device consists of a filled with a liquid medium Housing consists in which at least one impeller is provided, which has a mechanical gear with the rotor of the wind power machine in its rotary motion is coupled, and that this device is surrounded by a liquid heat transfer medium is, which in the consumer circuit between the consumer and the Heat extraction point is circulated. Devices of this type are small and handy and hardly require any space.

Depending on the speed of rotation and the choice of medium in that the impeller must rotate, temperatures in the medium can be up to several reach a hundred degrees Celsius.

To the resistance against which the impeller passes in the liquid medium the rotors of the wind power machine are moved to increase, and thus also the To increase achievable temperatures, is in a further embodiment of the invention proposed that the impeller be too rigid with the front face at a short distance Casing connected blades which are preferably opposite to the impeller blades are directed, is arranged.

The thermal energy generated in this device is immediately absorbed the heat transfer medium flowing around this device and via the consumer circuit fed to the heat extraction points. Usually the heat transfer medium is over a circulation pump is put into circulation, but it is also pure gravity circulation possible, so that a heat energy supply is free from any further Energy source is possible.

The method according to the invention is based on a drawn exemplary embodiment explained.

In the drawing, 1 is the wind power machine, consisting of the Tower 2 and the rotor 3 designated. With 4, the consumer is referred to, the consists of the filled with a liquid medium device 5, within which Housing 15, the impeller 6 is rotatably mounted with the blades 7, and this Device 5 surrounding container 8 to which the consumer circuit 9 is connected is. The impeller 6 is coupled to the rotor 3 via the mechanical gear 10, Via which the rotary movements of the rotor 3 are transmitted to the impeller 6.

With 11 the heat extraction point is shown schematically, and with 12 is the circulation pump with which the heat transfer medium between the consumer point 4 and heat extraction point 11 is circulated.

With 13 is a heat exchanger for domestic water heating shown, which is always supplied heated heat transfer medium via the circulating pump 14. It it is of course also possible to put the heat exchanger 13 in the consumer point 4 to be integrated, but it is drawn separately here for technical reasons.

Mode of operation: It is assumed that the use of wind power machines 1 is only possible where a steady wind can be expected, e.g.

at the sea.

If the rotor 3 of the wind power machine 1 rotates by the wind offset, the impeller 6 is also rotated via the mechanical gear 1o offset. Due to the resistance that the liquid medium has against the blades 7 of the impeller 6 opposed in the device 5, the part of the rotational energy that is needed to overcome of the resistance is necessary, converted into thermal energy, by means of which the liquid Medium in the device 5 is heated. The greater the resistance, the higher are also the achievable temperatures.

The basic requirement must always be that the Resistance, which is opposed to the blades 7 of the impeller 5 is smaller than the torque, which is transmitted by the rotor 3 depending on the wind strength. thats why the need to adjust the blade resistance is conceivable.

This so generated in the device 5 thermal energy is this yes transferred around the heat transfer medium and via the consumer circuit 9 of the Heat extraction point 11 supplied. If more heat energy is generated than currently is consumed, the thermal energy can be transferred to a known heat storage system (here not shown), and can be called up from there if necessary.

13 is the heat exchanger for the domestic water, but that too Part of the consumer 4 or the heat storage (not shown) can be.

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Claims (1)

Claims i 1) Method for generating thermal energy by means of a wind power machine consisting of at least one rotor mounted on a tower consists in which the energy of the natural wind in usable mechanical Energy is converted, and this energy is then transferred to a consumer point is, characterized in that the mechanical energy at the consumer point (4) is converted into heat energy directly usable consumer temperature, and that the heat energy gained is fed to the consumer circuit (9) 2) Device for carrying out the method according to claim 1, characterized in that that at the consumer point (4) for converting the mechanical energy into thermal energy a device (5) is provided in the manner of a water vortex brake that this Device (5) made of one with a liquid medium filled housing (15) consists, in which at least one impeller (6) is provided, which has a mechanical gear (lo) with the rotor (3) of the wind power machine (1) in its Rotary movement is coupled, and that this device (5) of a liquid heat transfer medium is surrounded, which in the consumer circuit (9) between the consumer point (4) and the heat extraction point (11) is circulated. 3) Device according to claim 2, characterized in that the impeller (6) on the front side at a short distance from blades rigidly connected to the housing (15), which are preferably directed opposite to the impeller blades (7), arranged is.