DE3933284C2 - - Google Patents

Description

The invention relates to a method for continuous Generation of electrical energy from solar energy, in which the solar energy in high temperature heat of a fluid is implemented, the converted energy is stored and the stored energy converted into electrical energy becomes.

From the magazine "Technische Rundschau Sulzer" 3/1989, Pages 9-14; Essay Hans W. Fricker - "30 MW- Demonstration solar power plant - A study "is from picture 2 such a process is known. In the known method concentrate numerous mirrors that track the sun the solar radiation on a radiation receiver on the Top of a tower. The radiation receiver absorbs and transfers most of the solar energy to one gaseous or liquid circulating fluid such as air, sodium or Melting salt. The heated fluid is in one Storage tank introduced to a different solar Compensate for radiation (day and night operation, clouds) can. The heat medium is removed from the memory and fed to a steam generator. Between the steam generator  and the radiation receiver is another storage tank turned on, which the fluid after passing through the Steam generator picks up. During daytime operation continuously part of that from the radiation receiver emitted amount of heat in the the steam generator upstream storage tank stored and the rest for Steam generation used and fluid in a corresponding manner from the further storage tank to the radiation receiver returned. The steam generator is one on the steam side Steam turbine downstream, which in turn one drives electric generator.

This process of continuous production Electrical energy has the following disadvantages. In the Storage occur as a result of the necessary Temperature differences on energy losses. The used coming gaseous or liquid fluids have a low energy density, so that when storing large Memory are required. Because the stores because of their Size must also have large surfaces considerable heat losses. Furthermore, the Steam turbine process has poor efficiency.

It is therefore an object of the present invention Specify the process in which, on the one hand, the Storage volume requirements reduced, and the other one better efficiency is achieved.

This object is achieved in that the High temperature heat for heating and converting one in the circuit led heating gas for heating the supplied reactants one Methane reforming process used to produce a product gas is that the product gas or one out of the product gas processed product with high energy density (chemical Energy) is stored, and the stored product gas or product of at least one fuel cell for generation electrical energy is supplied.  

The fuel cell generates electrical energy through Energy-direct conversion from chemical energy.

The implementation of reforming processes with the help of solar-generated high-temperature heat is both for the steam reforming of methane, which is known per se (see HR Christen "Fundamentals of Organic Chemistry", Verlag Sauerländer Aarau, Diesterweg-Salle, Frankfurt / M. (1970), p. 87 and 177) as well as for the CO ₂ reforming of methane; however, the synthesis gases generated are intended for use in chemical engineering.

The present invention combines the solar Reforming methane with a fuel cell to get on this way the main disadvantages of a Avoid solar power plant with water-steam cycle.

The product gas of the reforming process is preferably passed through a shift converter in order to increase the hydrogen content in the product gas. It is possible that the CO ₂ portion is washed out before being stored.

The hydrogen can preferably be under pressure in one Container or pressureless as a hydride or liquid get saved.

Since methanol is a potential energy source for Fuel cells discussed (Chimia 42 (1988), No. 5, Pages 187-198), it can be an advantage that from the Product gas methanol is synthesized and the methanol is depressurized is saved for the operation of the fuel cell the methanol decomposes.

The invention is also directed to a solar system Implementation of the method according to one of claims 1-4 and goes from a power plant according to the generic term of Claim 5 from. In this power plant is according to the invention provided that the radiation receiver via a  Heating gas circuit a convectively heated methane reformer is downstream that the product gas outlet of the reformer a memory directly or via a processing device is connected downstream and this memory with at least one Fuel cell is connected.

The invention will now be described with reference to the accompanying figure are explained.

The solar energy SE is received by a radiation receiver 1 and transferred to a circulating gas, preferably air or CO ₂ , which is fed via a line 2 to the lower end of a reformer 3 , which has the shape of a tubular cracking furnace in the figure. In the tube cracking furnace 3 , a number of cracking tubes 4 are convectively heated by the hot air. The heating gas is withdrawn from the tube cracking furnace via a line 5 and fed back to the radiation receiver via a cooler 5 and a compressor 7 . The cooler 6 serves to cool the heating gas down to the permissible operating temperature of the compressor 7 .

The tube cracking furnace 3 are supplied in the case of steam reforming of methane CH ₄ and H ₂ O through a heat exchanger 8, in which the tube withdrawn from the cracking furnace 3 hydrogen-rich product gas PG is cooled. In this way, the heat of the product gas PG is used for process steam generation and / or for preheating the natural gas. The product gas is then fed to a so-called shift converter 9 , in which the CO content is reduced and the H ₂ content is increased in a manner known per se by supplying and consuming water. It is possible to wash out 10 more CO ₂ components before transferring the hydrogen-rich product gas PG into a pressure vessel.

The hydrogen is fed from the pressure vessel 10 to a downstream fuel cell 11 , which is supplied with an oxidizing gas such as air, oxygen-enriched air or pure oxygen in addition to the hydrogen.

The oxidation product of the fuel cell consisting of water and possibly unreacted gases can likewise be fed to the tube cracking furnace 3 as the starting gas.

The product gas is processed into methanol and Storage of the methanol, so the hydrogen for the Operation of the fuel cell from a decomposition of the Won methanol.

In the solar power plant according to the invention takes place thus a buffering of those obtained from solar energy Energy in a store and the stored energy can with the help of the very quickly operational fuel cell be converted into electrical energy.

Claims (5)

1. A method for the continuous generation of electrical energy from solar energy, in which the solar energy is converted into high-temperature heat of a circulating fluid, the converted energy is stored and the stored energy is converted into electrical energy, characterized in that the high-temperature heat for heating one in the circuit led heating gases for heating the supplied reactants of a methane reforming process to a product gas be used that the product gas or a product prepared from the product gas is stored as an energy carrier with high energy density, and the stored product gas or product at least one fuel cell for generating electrical Energy is supplied. 2. The method according to claim 1, characterized, that the product gas of the reforming process over a shift converter is passed to the hydrogen to increase the proportion in the product gas. 3. The method according to claim 1 or 2, characterized, that the hydrogen is under pressure in a container or is stored without pressure as hydride or liquid.   4. The method according to claim 1, characterized, that synthesized methanol from the product gas and that Methanol is stored without pressure. 5. Solar system for performing the method according to any one of claims 1-4 with at least one radiation receiver for generating high-temperature heat and transfer of heat to a circulating fluid, a device for storing the energy provided by the radiation receiver and a device to implement the stored energy in electrical energy, characterized in that the radiation receiver ( 1 ) via a heating gas circuit ( 2 , 5 , 6 , 7 ) is followed by a convectively heated methane reformer ( 3 ) that the product gas outlet (PG) of the reformer directly or via a processing device ( 9 ), a memory ( 10 ) is connected and this memory is connected to at least one fuel cell ( 11 ).