DE29600325U1 - Wind power station - Google Patents

Description

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DESCRIPTION OF UPWIND POWER PLANT

The invention relates to a solar updraft power plant according to the preamble of claim 1.

Updraft power plants are generally known. They usually consist of an updraft tunnel made of steel pipes, which can have a maximum length of several hundred meters. A wind turbine is installed at the bottom of the updraft tunnel, which drives an electric generator. In addition to the size of the covered heating surface, the height and diameter of the updraft tunnel largely determine the output of such an updraft power plant. All updraft power plants known to date have the disadvantage that the updraft tunnel is too small, so that the electrical output they can output is limited.

The invention is therefore based on the object of significantly increasing the performance of a solar updraft power plant by allowing the updraft tunnel to assume dimensions that were previously not considered technically feasible.

Solutions to the problem are given in the characterising part of claims 1 and 2 respectively.

Further solutions and embodiments can be found in claims 3 to 10.

Because the chimney hose is made of light, high-strength fabric material or a high-strength plastic fabric, in particular with fabric inserts, which is surrounded by balloon rings or balloon hoses, which are preferably

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helium-filled, chimney heights of over 1000 meters are technically feasible. Such a chimney hose is designed to be contractible using synchronously controlled motor winches and corresponding ropes in order to be able to contract the chimney hose in the event of storms and high wind speeds so that extreme fluctuations and thus damage cannot occur. In addition, most maintenance and repair work can be carried out better when the chimney hose is contracted. The wind turbines coupled to the generators are arranged on a foundation or a support system that is either made of steel or reinforced concrete. The chimney hose is attached to this foundation. The chimney hose can also be supported by just one large balloon or hose ring arranged on top, whereby support rings must be inserted at the required intervals.

The invention is described in more detail using an embodiment shown in the drawing.

In the drawing:

1 updraft air duct

2 plastic foil (chimney hose) 3.3' balloon ring, balloon hose

4 ropes

5 Rope guide parts

6 Cable winch

7 Foundation or support system

8 Support system

9 Wind turbine and gearbox

10 Generator

11 Lightning rod

12 contracted channel

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13 Warm air flow

14 Support or pressure rings

15 lightning conductor cables

16 Lightning conductor earthing

17 Rainwater drainage

18 Cistern ring

19 Tent skin

20 Entry lock

21 Support system

The solar updraft power plant shown in the drawing is shown in cross-section.

The chimney hose 2 forming the updraft or updraft duct 1, made of light, high-strength fabric, a high-strength plastic film or a plastic film with fabric, extends conically upwards in order to create optimal flow conditions and to gain folding space for the contracted system. The chimney hose 2 is equipped with support or pressure rings 14 at certain points in order to keep the chimney hose 2 stable and circular, since the strong flow creates suction on the inside. The support or pressure rings 14 are made of very light, high-strength material, such as aluminum, carbon fiber or glass fiber materials. In order to bring the chimney hose 2 to the desired height or to keep it at the desired height, helium-filled balloon rings or hoses 3 are arranged at intervals on the outer skin, especially at the support or pressure rings 14 attached on the inside. It is also possible to arrange only one balloon or hose ring 3' (shown in dashed lines) at the top of the chimney hose 2. These helium-filled balloon rings 3 must be dimensioned so that the buoyancy required to hold the chimney hose can be generated. In order to remove the chimney hose 2 for repair or maintenance work or

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In order to be able to pull in the chimney hose 2 due to foreseeable bad weather conditions, traction cables 4 are arranged all around, preferably on the inside of the chimney hose 2. These traction cables 4 are guided in cable eyelets 5 which are attached to the chimney hose 2. The chimney hose 2 is connected at the lower end to a support system or foundation 7, for example in a steel or reinforced concrete structure, in an airtight manner. Synchronously controlled motor winches 6 for the traction cables 4 and the lightning conductor cable 15 with lightning conductor tip 11 are also arranged on the foundation 7 at the upper end. These synchronously controlled motor winches 6 make it possible to pull the chimney hose 2 together into a truncated cone 12 in a short time. The wind turbines 9 attached to the foundation 7 are optimally located in the updraft or up-air channel 1, so that the generators 10, which are coupled either directly or via a gear, generate energy with optimal efficiency. The lightning conductor tip 11 can either be held with spoke-shaped support cables or the lightning conductor tips 11 are fastened all around to the top support ring, whereby the lightning conductor cable is preferably guided in holding rings on the support rings near the chimney hose 2. The lightning conductor cables are connected to the lightning conductor earthing 16 on the foundation 7.

A support system 8 is preferably arranged radially on the steel or reinforced concrete structure for accommodating the wind turbine 9, the gearboxes and generators 10, on which there is a tent skin that has two functions.

The first function is that under the largest possible, preferably circular tent surface, the air flowing in at the edge is warmed by the sun's rays. The tent shape rising towards the center therefore causes the warm air to rise and the larger volume in the

Center optimal flow conditions for the air flowing into the wind turbines 9.

The second function is to drain rainwater, which is collected in a surrounding cistern ring.

The rainwater drainage 17 is symbolically represented by arrows above the tent skin 19 and the warm air flow 13 is symbolically represented by arrows below the tent skin 19. The tent skin 19 is supported and held by appropriately arranged tent poles 21. In addition, an access lock 20 (indicated by an arrow) is arranged for servicing the wind turbines 9, generators 10 and for servicing the interior of the chimney hose 2, through which the people responsible for maintenance can access the interior of the updraft power plant. The chimney hose 2 can alternatively also be made of truncated cone segments that are connected to one another with automatic locks and, if necessary, braced against one another. The synchronous control of the cable winches 6 can be carried out either manually or by appropriate electronic control or computing devices that automatically carry out the retraction depending on the weather situation and the environmental conditions or the fluctuations and inclinations of the chimney hose 2. The adjustable height of the chimney hose 2 also allows the output power of the generators 10 to be regulated as required.

Claims (12)

950902GM PROTECTION CLAIMS 1. Updraft power plant with a chimney as updraft air duct, in which wind turbines are arranged on a common foundation, which are coupled directly or via a gear to electric generators, characterized in that that a conical chimney hose (2) widening upwards made of high-strength fabric material or of high-strength plastic films forms the updraft channel (1) and that helium-filled balloon rings or hoses (3) are arranged at intervals on the chimney hose (2) to support the chimney hose. 2. Updraft power plant with a chimney as updraft air duct, in which wind turbines are arranged on a common foundation, which are coupled directly or via a gear to electric generators, characterized in that that a chimney hose (2) held vertically by gas-filled balloon rings or hoses (3) forms the updraft air duct (1) which is designed to be contractible. 3. Updraft power plant according to claim 1 or 2, characterized in that the chimney hose (2) is connected airtight to the foundation or support system (7) at the lower end. 4. Updraft power plant according to one of the claims 1 to 3, characterized in that that the chimney hose (2) is formed from a number of truncated cone segments which are connected to one another with automatic closures and, if necessary, braced against one another. 5. Updraft power plant according to one of the preceding claims, characterized in that that in order to pull together or retract the chimney hose (2), synchronously controlled cable or motor winches (6) are arranged on the foundation or support system (7), which are connected in a force-fitting manner to the chimney hose (2) via traction cables (4) running and guided on the outer skin. 6. Updraft power plant according to one of the preceding claims, characterized in that that the chimney hose (2) is equipped with a number of support or pressure rings (14) made of as light and high-strength material as possible to keep it stable and circular, which are preferably attached to the inner skin of the chimney hose (2) in the area of the externally attached balloon rings or hoses (3). 7. Updraft power plant according to one of the claims 1 to 6, characterized in that that several wind turbines (9) with associated generators (10) are arranged next to and/or above one another in the updraft air duct (1). 950902GM 8. Updraft power plant according to one of the claims 1 to 6, characterized in that that a lightning conductor system with a central tip (1) or with several tips arranged at the top of the chimney hose (2) and with lightning conductor cable or cables (15) which is/are earthed and is equipped with motor winches. 9. Updraft power plant according to one of claims 1 to 6, characterized in that that an entry lock (20) is arranged. 10. Updraft power plant according to one of the claims 1 to 6, characterized in that that an essentially circular tent skin rising to the center is connected to the foundation or support system (7) in an airtight and watertight manner, which is held and tensioned by a support system (21) and thus drains the rainwater into a surrounding cistern ring (18) and enables an upward flow of the warm air (13) for the air heated underneath by the solar radiation, and minimizes the flow resistance. 11. Updraft power plant according to one of claims 1 to 6, characterized in that that the supports of the support system (8) of the tent skin (19) are arranged radially for optimum air flow. .I .". .·\ .: .".." 950902GM 12. Updraft power plant according to one of the claims 1 to 6, characterized in that that the chimney hose (2) is supported by only one hose ring (3') and that support rings (14) are inserted at specific intervals.