DE29917453U1 - Wind power station - Google Patents

Description

990901GM

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 well known. They usually consist of an updraft channel made of steel pipes or of light, high-strength fabric material or high-strength plastic fabric. At least one wind turbine is installed at the bottom of the updraft channel, which drives one or more electric generators. In addition to the size of the covered heating surface, the height and diameter of the updraft channel determine the output of such an updraft power plant. Such an updraft power plant is described, for example, in German utility model 296 00 325.5. In addition, DE 198 31 492 Al describes an updraft power plant in which stone surfaces or stone blocks are proposed to achieve better heat storage in the collector surfaces. In addition, the development of updraft power plants up to this point is described in the book "The updraft power plant: electricity from the sun: simply affordable and inexhaustible" by Jörg Schlaich, Stuttgart, Deutsche Verlagsanstalt, 1994. Likewise, in a sequel to the book "The Updraft Power Plant", ideas for a controllable, continuous day and night operation by adjusting the power supply to the demand using water-filled, black hoses at approximately the same power generation costs were put forward (published in August 1996).

The power requirement of such a power plant during the evening and early night hours, when the electricity is needed for

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The temperature of the subtropics and tropics, which are the main areas of consideration for updraft power plants, is relatively high and sometimes even higher than during the day. Therefore, the earth or absorber surface must have the highest possible storage capacity. The storage form is optimal when the greatest heat is released until around midnight, with only a small reserve for the remaining night hours. In the aforementioned DE 198 31 492 Al, various forms of heat storage arrangements using stones are described.

The disadvantage of this type of solution, however, is that the ground area around the stones acts as an earth reservoir and thus a certain amount of the incoming solar energy is lost to the soil, since the temperature in the upper layers of the earth does not exceed 10° Celsius, even in the tropics.

An improvement that largely avoids the loss of energy to the soil beneath the heat storage facility is therefore required.

The invention is therefore based on the object of creating an updraft power plant whose air collector enables even better storage of the radiated solar energy, in particular preventing undesired discharge into the ground and thus improving the efficiency through cost-effective measures.

The solution to the problem is characterized in the characterizing part of claim 1.

Further solutions and embodiments are characterized in claims 2 to 7.

The unwanted discharge of radiated or stored solar energy into the underlying

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The effect of the solar energy on the ground is achieved by laying reflective foils on the ground, onto which the stones are then placed to act as storage. The sun's rays around the stones are then reflected onto them, increasing their heating and efficient energy absorption.

If the foil covering is arranged in narrow, cross-shaped strips, it is possible to easily renew and access the stone packings for a new blackening if necessary. With this solution, the storage units that act as stones can be anchored or remain anchored in the ground or in a suitable auxiliary layer and the foil covering only needs to be laid in the gaps.

To reduce the heat conduction from the heat-storing stones into the ground, they can be stored on a heat-insulating (limited) layer of pumice, expanded clay or similar material. Black stone material, such as basalt, is best suited for storage. Other types of stone can be dyed black if necessary. Extremely large blocks with a high and long-lasting heat storage capacity are suitable for storage beyond a daily rhythm.

The above-mentioned state of the art points out, among other things, the high storage capacity of water for solar heat, which is why solar energy is stored in water pipes, which is technically complex and complicated compared to energy storage in stones and the like. The present solution achieves a better effect through a larger volume of rock.

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and the introduction of the foil covering as a reflection and insulating layer to the ground.

Claims (7)

1. Updraft power plant with an updraft air chimney in which wind turbines are arranged on a foundation, which are coupled to electric generators directly or via a gear, with a room covered by a gently sloping roof for heating the incoming air, an all-round channel for the air flow during the day and an all-round channel for the air flow at night with heat-storing stone surfaces or stone blocks or fills, characterized in that a film cover is arranged between the heat-storing stone surfaces or stone blocks or fills, which prevents the radiated solar energy from being diverted into the ground and reflects it to the storing stone surfaces, stone blocks or fills. 2. Updraft power plant according to claim 1, characterized in that the foil covering the soil is arranged in cross-shaped strips. 3. Updraft power plant according to claims 1 or 2, characterized in that the foil covering of the soil is arranged only in the spaces between the heat-storing stones. 4. Updraft power plant according to one of the protection claims 2 or 3, characterized in that the cross-shaped foil covering consists of narrow reflective foil strips. 5. Updraft power plant according to one of the protection claims 1 to 4, characterized in that the heat energy storing stone blocks or embankments or stone slabs are arranged on a heat insulating base to reduce the undesirable heat dissipation into the ground. 6. Updraft power plant according to protection claim 5, characterized in that the heat-insulating base of the stone blocks, embankments or stone slabs is made of pumice, expanded clay or other pressure-resistant and insulating material. 7. Updraft power plant according to one of the claims 1 to 6, characterized in that very large stone blocks or structures with high and long-lasting heat storage capacity are arranged for the long-term storage of radiated solar energy.