DE102004053802A1 - Solar power module - Google Patents

Abstract

A solar energy module with an absorber surface (1) provided for absorbing solar radiation energy is described. According to the invention, a phase change material (2) in thermal contact with the absorber surface (1) is provided, which has a phase change temperature lying in the region of a desired maximum operating temperature of the solar energy module (10).

Description

The The invention relates to a solar energy module with one for absorption absorber surface provided by solar radiation energy.

to Use of solar radiation energy serve photovoltaic modules, namely for converting the solar radiation energy into electrical energy, and thermal solar collectors, namely for heating Water or another heat carrier. photovoltaic modules possess due to the physical properties of their semiconductor material a dependent on the material temperature efficiency, with rising temperature goes back. This means, at times with high solar radiation intensities, so then when supply side one particularly high current efficiency possible would, go the efficiency due to the then rising temperature of the photovoltaic module back.

It Therefore, there are efforts to photovoltaic modules by dissipating Heat up a temperature level with still sufficiently high efficiency hold. This can be done, for example, by cooling through ventilation, for example in combination with an elevation the photovoltaic modules or in combination with Zuluftfasaden.

at Thermal solar collectors, the efficiency is also of depending on the temperature and goes back with increasing absorber temperature. Because every kind of other heat dissipation with the aim of lowering the absorber temperature, the amount of useful heat and This reduces the efficiency of the collector, cooling is under Removal of heat after Outside not a suitable means of increasing efficiency here.

The The object of the invention is in a solar energy module with a absorber surface intended for absorption of solar radiation energy for an increase in efficiency to care.

These The object is achieved by a solar energy module with the specified in claim 1 Characteristics solved.

advantageous Further developments of the solar energy module according to the invention are in the subclaims specified. The invention provides a solar energy module with a created absorber surface intended for the absorption of solar radiation energy. According to the invention is a with the absorber surface provided in thermal contact phase change material provided the one in the range of a desired maximum operating temperature of the solar energy module lying phase change temperature having.

Preferably is the phase change module in the form of a planar arrangement at the back of the absorber surface intended.

The Phase change material can be provided in powder or granular form be.

According to one preferred embodiment of Invention is the powdered or granular phase change material in one as a carrier serving, with the absorber surface provided in thermal contact matrix.

According to one another preferred embodiment of the invention, the phase change material in one with the absorber surface in thermal contact located container structure be provided.

in this connection in particular, the container structure with a variety of the, in particular powdered or granular, phase change material containing Chambers or cavities be provided.

Farther the phase change material can be provided as a plate material.

Preferably is the phase change material for a phase change solid-liquid in the range of a desired maximum operating temperature of the solar energy module provided.

According to one preferred embodiment of Invention, the phase change material is a paraffin.

According to one another preferred embodiment According to the invention, the phase change material is a salt hydrate. Generally is the phase change temperature of the phase change material in the range from 20 ° C up to 80 ° C. According to one embodiment the invention is the phase change temperature of the phase change material in the range of 20 ° C up to 30 ° C, advantageously in the range of 23 ° C to 27 ° C. This is especially for photovoltaic modules advantageous.

According to one another embodiment of the Invention is the phase change temperature of the phase change material in the range of 60 ° C to 80 ° C, advantageously in the range of 60 ° C up to 70 ° C. This is especially for thermal solar collectors advantageous.

According to an advantageous embodiment of According to the invention solar energy module ventilation cross sections are provided in the region of the phase change material.

According to one Further development of this, it can be provided that the ventilation cross sections are optional lockable are.

According to one advantageous aspect of the invention is the solar energy module Photovoltaic module.

According to one Another advantageous aspect of the invention is the solar energy module a thermal solar collector.

in the Following are embodiments of the solar energy module according to the invention explained with reference to the drawing. It shows:

1 a simplified perspective view of a solar energy module according to a first embodiment of the invention; and

2 a simplified perspective view of a solar energy module according to a second embodiment of the invention.

In the 1 and 2 is each a solar energy module 10 which has an absorber surface 1 has, which is intended for the absorption of solar radiation energy. In the case of in 1 illustrated solar energy module 10 it can be a photovoltaic module or a thermal solar collector, in which 2 illustrated solar energy module 10 preferably a photovoltaic module.

Between the absorber surface 1 and a rear surface facing away from the incident solar radiation at a distance parallel thereto 4 is a phase change material 2 provided, one in the range of a desired maximum operating temperature of the solar energy module 10 having lying phase change temperature. This phase change material is in the form of a planar arrangement on the back of the absorber surface 1 intended. The back surface 4 may be a roof or wall surface or a suitable mounting surface in the case of a photovoltaic module. In the case of a solar thermal collector, the back surface becomes 4 For example, an inner surface of a housing of the solar energy module 10 be, which is otherwise not shown. This housing would further comprise a thermal insulation on the back and on the sides, as well as a transparent cover on the front, as they are known and not specifically shown in the figures.

The phase change material 2 is in the 1 and 2 generally shown in the form of a sheet or plate-like arrangement. In particular, the phase change material 2 be provided in a powder or granular form, which is held by suitable means in the intended form. For this purpose, the powdered or granular phase change material 2 For example, in serving as a carrier, with the absorber surface 1 in thermal contact matrix or in one with the absorber surface 1 be provided in thermal contact container structure. In particular in the case of powdered or granular phase change material 2 For example, the container structure may contain a variety of the phase change material 2 be provided containing chambers or cavities. The phase change material 2 however, it may also be provided in another suitable way in the form of a board material or in any other suitable form. It is essential that the phase change material 2 in good thermal contact with the absorber surface 1 located.

The phase change material, which in the embodiments described here for a phase change solid-liquid in the range of a desired maximum operating temperature of the solar energy module 10 is provided, for example, may be a paraffin or a salt hydrate.

The Phase change temperature of the phase change material is general in the range of 20 ° C up to 80 ° C.

For photovoltaic modules It is preferably in the range of 20 ° C to 30 ° C, with particular advantage in Range of 23 ° C up to 27 ° C. These temperature ranges mean for photovoltaic modules under usual Operating conditions are highly efficient and are therefore considered desired to see maximum operating temperatures. With increasing temperature would the Efficiency drops.

For thermal Solar collectors, the phase change temperature is preferably in the range of 60 ° C up to 80 ° C, with particular advantage in the range of 60 ° C to 70 ° C. These temperature ranges mean for thermal Solar collectors a (still) high efficiency at the same time high operating temperature. With even higher temperature of the Efficiency drops.

Like the embodiment of 2 shows, in the area of the phase change material 2 Ventilation gaps 6 be provided. These can be designed to be lockable and serve for additional dissipation of heat from the absorber surface 1 and / or from the phase change material 2 ,

With strong incidence of solar radiation and thus strong heating of the absorber surface 1 its temperature remains due to the taking place during the phase change from solid to liquid latent heat storage in a defined temperature range and largely constant until the entire phase change material 2 the phase change is completed. After a decrease in the solar radiation intensity and the associated cooling of the absorber surface 1 and the environment is then a release of the stored latent heat, combined with a phase change in the reverse direction of liquid back to solid. In the case of a photovoltaic module, this causes the temperature of the module 10 is maintained at high solar radiation intensity at a lower temperature level in the range of high efficiency. In the case of a thermal solar collector causes the phase change material 2 an equalization of the collector temperature, thus leading to a lower collector temperature at high solar radiation intensity and to a higher collector temperature at the same time, with which also an increase in efficiency is connected. Preferably, the phase change material 2 in the structural design of the solar energy module 10 integrated.

Claims (20)

Solar energy module with an absorber surface intended for absorption of solar radiation energy ( 1 ), characterized in that one with the absorber surface ( 1 ) phase-change material in thermal contact ( 2 ) is provided, one in the range of a desired maximum operating temperature of the solar energy module ( 10 ) has lying phase change temperature. Solar energy module according to claim 1, characterized in that the phase change material ( 2 ) in the form of a planar arrangement on the back of the absorber surface ( 1 ) is provided. Solar energy module according to claim 1 or 2, characterized in that the phase change material ( 2 ) is provided in powder or granular form. Solar energy module according to claim 3, characterized in that the powdered or granular phase change material ( 2 ) in a carrier serving with the absorber surface ( 1 ) in thermal contact matrix ( 3 ) is provided. Solar energy module according to claim 3, characterized in that phase change material ( 2 ) in one with the absorber surface ( 1 ) is provided in thermal contact container structure included. Solar energy module according to claim 5, characterized in that the container structure ( 4 ) with a plurality of the, in particular powdered or granular, phase change material ( 2 ) containing chambers or cavities ( 5 ) is provided. Solar energy module according to one of claims 1 to 6, characterized in that the phase change material ( 2 ) is provided as a plate material. Solar energy module according to one of claims 1 to 7, characterized in that the phase change material ( 2 ) for a phase change solid-liquid in the range of a high-temperature efficiency of the solar energy module ( 10 ) is provided. Solar energy module according to claim 8, characterized in that the phase change material ( 2 ) is a paraffin. Solar energy module according to claim 8, characterized in that the phase change material ( 2 ) is a salt hydrate. Solar energy module according to one of claims 1 to 10, characterized in that the phase change temperature of the phase change material ( 2 ) is in the range of 20 ° C to 80 ° C. Solar energy module according to claim 11, characterized in that the phase change temperature of the phase change material ( 2 ) is in the range of 20 ° C to 30 ° C. Solar energy module according to claim 11, characterized in that the phase change temperature of the phase change material ( 2 ) is in the range of 23 ° C to 27 ° C. Solar energy module according to claim 11, characterized in that the phase change temperature of the phase change material ( 2 ) is in the range of 60 ° C to 80 ° C. Solar energy module according to claim 11, characterized in that the phase change temperature of the phase change material ( 2 ) is in the range of 60 ° C to 70 ° C. Solar energy module according to one of claims 1 to 15, characterized in that in the region of the phase change material ( 2 ) Ventilation cross sections ( 6 ) are provided. Solar energy module according to claim 16, characterized in that the ventilation cross cuts ( 6 ) are optionally closable. Solar energy module according to one of claims 1 to 17, characterized in that the solar energy module ( 10 ) is a photovoltaic module. Solar energy module according to one of claims 1 to 17, characterized in that the solar energy module ( 10 ) is a thermal solar collector. Solar energy module according to one of claims 1 to 19, characterized in that the phase change material ( 2 ) in the structural design of the solar energy module ( 10 ) is integrated.