DE3142979A1 - Process and device for storing solar energy - Google Patents

Abstract

The process and device for storing solar energy comprise a solar tower which receives highly concentrated solar energy. The solar radiation strikes a heat exchanger which is designed as an absorber and in which a chemical mixture, in particular a mixture of methane and steam, is caused to react with absorption of the heat energy. The reaction product serves as a transportable energy store which can be utilised as required. The stored heat is released by reversing the reaction.

Description

Method and device for storing solar energy

The invention relates to a method and an apparatus for storing solar energy.

The known methods for harnessing solar energy exist therein, the rays in electrical energy, thermal energy by means of water or potential To convert energy.

The electrical or thermal energy can only be stored to a limited extent, so that their supply is subject to the sharp fluctuations in supply and demand subject. The storage capacity, however, can be reduced in the case of conversion into potential Reaching energy by raising water to a higher level by a correspondingly large reservoir volume is selected, namely through use of mountainous terrain. However, this method has been due to the existing topography only limited application possibilities.

In addition, the systems for this are very expensive.

The invention is based on the object of creating a method with which the solar energy with buffer effect and thus the supply and the demand can be saved to compensate.

The object is achieved according to the invention in that the solar energy is chemically stored.

That brought to a higher energy level by absorbing energy chemical product is stable under appropriate conditions, such as temperature, pressure, so that the energy stored in the product can be preserved for a long time and can also be transported as far as desired with the product. By the invention Method is thus achieved that the solar energy according to the offer can be continuously converted and stored, and that this stored Energy can be used regardless of the location of the solar system.

According to one embodiment of the invention, the solar energy is converted into thermal energy converted and absorbed by a chemical mixture, causing it to react is brought.

This process can be carried out by simple technical means Enable measures by converting the radiant energy into heat directly through the container in which the chemical mixture is carried.

It is advantageous if the chemical reaction is reversible.

This ensures that the reaction product can also be transported Heat source or storage can be used by reversing at the consumer point the reaction, the stored energy is released as thermal energy and the consumer is fed.

The reaction products can be independent of time and also independently from the location whose recovery can be returned to the solar system.

In a further development of the invention it is provided that the starting reaction mixture Methane (CH4) and water vapor is used.

Methane and water vapor are available worldwide, so that herewith the Supply difficulties do not extend beyond normal precautions. With This reaction mixture can also be used for a very efficient process. The reaction product serving as a storage also has a wide range of uses. Due to the regression of the starting products, namely methane and water vapor, the released thermal energy can be used.

In the steam reforming of methane, the methane is converted into hydrogen and split carbon oxide. The hydrogen generated in this way has a large area Uses, as well as in the production of ammonia, methanol, hydrogenating Gasification of coal, direct reduction of iron ore, etc.

According to a further embodiment of the invention, as a device For the chemical storage of solar energy, a solar rum is planned, the highly concentrated one Receives solar energy and, in the radiation area, a heat exchanger for the reaction mixture having.

The bundled rays can be projected onto a solar tower head, which are reflected by a very large reflector field, so that in the focal point Heat high temperature levels can be generated.

For the steam reforming of CH4 it is advantageous if the temperature range is between 760 and 900 ° C.

For this process, a heat exchanger is also provided by under Use of the waste heat of the reaction product, the steam required for the reaction is produced.

Exemplary embodiments according to the invention are shown schematically in the drawing shown.

In Fig. 1, a solar tower (solar tower) is shown, the one on a Tower 10 built radiation receiver 11 has. From placed on the floor Reflectors, so-called heliostats 12, the sun rays 13 on openings 14 of the radiation receiver 11 reflected bundled.

The bundled high-energy beam 15 strikes a heat exchanger 16 provided behind the opening 14, the outer wall 17 of which is designed as a solar absorber in that the outer surface is coated with a black layer, for example. A mixture of CH4, which is taken from a store 19, and water-steam from another store is fed into the heat exchanger 16 via a line 20. With the aid of a nickel catalyst, for example, and the supply of heat at a temperature level of around 800 ° C., the methane is converted according to the following formula. CH4 + H20 pf + heat3H + CO Steam 2 or CH4 + H2 0 + heat ffi + CO Steam 2 2 The hot reaction mixture is passed through a heat exchanger 21 in which the reaction mixture is cooled with the generation of steam. The reaction mixture finally arrives in containers 22 in which it is transported to the place of use. Transport is also possible through a pipe system.

A fresh water supply 23 is provided for steam generation, which opens into the heat exchanger 21. In the heat exchanger 21, the water is absorbed the heat of the reaction product evaporated and via a line 24 of the mixture line 20 added.

The above reaction is reversible. By regression of the The product of the reaction to methane and water vapor releases heat, which leads to the reverse reaction is stored in the reaction product. The stored heat can then be used at the point of use after initiation of the reverse reaction are discharged.

However, the hydrogen from the carbon oxide can also be obtained from the reaction product are separated and used in the manufacture of products such as ammonia, methanol will.

With the storage of solar energy described above, the with the reflectors 12, the radiation receiver 11 supplied maximum solar energy can be used by the system regardless of energy demand at maximum performance is operated.

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Claims (7)

Claims 1. A method for storing solar energy, thereby characterized in that the solar energy is stored chemically. 2. The method according to claim 1, characterized in that the solar energy is converted into thermal energy, and that a chemical mixture by absorption the thermal energy is made to react. 3. The method according to claim 2, characterized in that the chemical Reaction is reversible. 4. The method according to claim 3, characterized in that the reaction product is fed back from a corresponding back reaction to the solar system. 5. The method according to any one of the preceding claims, characterized in, that the starting reaction mixture used is CH4 and steam. 6. Apparatus for performing the method according to claim 1, characterized characterized in that a solar tower (10, 11) is provided, the highly concentrated Receives solar energy and the one in the radiation area (14, 15) acts as a radiation absorber has formed heat exchanger (16) for a reaction mixture. 7. Apparatus according to claim 5 for the steam reforming of methane, characterized characterized in that a heat exchanger (21) is additionally provided for generating steam is.