NL1027567C2 - Solar heat collector, comprises pair of parallel plates with gap in between for heat absorbing medium to flow through - Google Patents

Abstract

The collector (1) comprises two parallel plates (2, 3) with a gap (6) in between for a heat absorbing medium such as water to flow through. At least one of the plates forms the sunlight receiving surface. The plates display a pattern of cooperating pyramid or semispherical-shaped protrusions (4) provided with a layer of photovoltaic material.

Description

SUN COLLECTOR

The invention relates to a solar collector. These are known per se in many forms, different performance values and different costs.

It is an object of the invention to provide an alternative solar collector with which a high efficiency can be obtained, while the costs for manufacturing the solar collector can remain low.

This object is achieved according to the invention with a solar collector with a sunlight receiving surface, which solar collector comprises two parallel plates, wherein a gap is formed between the plates for flow through with a heat-absorbing medium and wherein at least one of the two parallel plates sunlight-receiving surface.

The two parallel plates can for instance be made of a plastic. Sunlight falling on one of the two parallel plates will heat up this plate, to which the heat is transferred to the heat-absorbing medium. Due to the formed gap, the amount of heat-absorbing medium relative to the surface is small, so that the heat-absorbing medium can easily be heated to a higher temperature.

Preferably the gap formed by the two plates is narrower than 10 mm and in a highly preferred embodiment the gap is between 2 mm and 6 mm wide.

In another preferred embodiment of the solar collector according to the invention, spacers are arranged between the two plates. This ensures that there is a constant gap width between the two plates, whereby a uniform flow profile is provided between the two plates.

In yet another preferred embodiment of the solar collector according to the invention, the parallel plates comprise a pattern of protrusions and the plates collapse in order to obtain a substantially constant gap width.

The protrusions increase the surface of the plates. Furthermore, the sunlight can fall in more perpendicularly to the surface through the protuberances, whereby a higher heat transfer from the sunlight to the heat-absorbing medium becomes possible. The protrusions are preferably pyramidal or hemispherical. Another advantage of such a solar collector is that the placement of a solar collector on an inclined surface, such as a roof, does not have to be as accurate. Particularly in the case of the spherical bulges, the sunlight will nevertheless be optimum at many positions of the sun and variations in the roof pitch. In yet another preferred embodiment of the solar collector according to the invention, a layer of photovoltaic material is arranged on the surface receiving the sunlight. Photovoltaic material has the property that striking light is converted into an electrical voltage. Since sunlight is not just heat radiation, an additional part of the sunlight is used with the photovoltaic material to generate energy. The heat radiation from the sunlight is used to heat up the heat-absorbing medium, while the photovoltaic material is used to generate electricity.

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An additional advantage is that the heat-absorbing medium cools the photovoltaic material. This keeps the efficiency of the photovoltaic material high.

In a preferred embodiment, the layer of photovoltaic material is applied to the protrusions.

In one embodiment, the energy generated by the photovoltaic material is used to heat the heat-absorbing medium. Thus, it is certainly possible in cold seasons to ensure that the temperature of the heat-absorbing medium is maximum.

The invention further comprises a method for generating energy with a solar collector according to the invention, which method comprises the step of flowing a heat-absorbing medium through the gap. In a very preferred embodiment of this method, the absorbent medium comprises pigment particles, for example carbon particles. Heat radiation emitted from the heated plates must be absorbed by the heat-absorbing medium. By adding pigment particles the possibility of absorbing this heat radiation is increased, whereby the efficiency of a solar collector is increased. With such an application, it is possible to make the plates transparent to the heat radiation, so that the heat radiation is absorbed directly by the heat-absorbing medium. In such a case, it is of particular importance that the heat-absorbing medium can absorb the heat of the direct sunlight. The absorption of the medium can be increased by adding pigment particles or other particles.

These and other features of the invention are further elucidated with reference to the accompanying drawing.

The figure shows in schematic perspective view a part of the solar collector according to the 1027567-4 invention. This solar collector 1 has an upper plate 2 and a lower plate 3. Both plates are provided with a pattern of pyramidal protrusions 4. The two plates 2, 3 are kept spaced apart by spacer blocks 5.

A gap 6 is thus formed between the two plates 2, 3, between which a heat-absorbing medium can flow. For example, a photovoltaic material can be provided on the side faces of the pyramid-shaped protrusions 4, so that also a part of sunlight incident on the solar collector 1 can be converted into electrical energy.

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Claims (11)

A solar collector with a sunlight receiving surface, which solar collector comprises two parallel plates, wherein a gap is formed between the plates for flow through with a heat-absorbing medium and wherein at least one of the two parallel plates forms the sunlight receiving surface. Solar collector according to claim 1, wherein the gap formed by the two plates is narrower than 10 mm. 3. Solar collector according to claim 2, wherein the gap is between 2 mm and 6 mm wide. Solar collector according to one of the preceding claims, wherein spacers are arranged between the two plates. 5. Solar collector as claimed in any of the foregoing claims, wherein the parallel plates comprise a pattern of protrusions, and wherein the plates fall into each other, in order to obtain a substantially constant gap width. 6. Solar collector according to claim 5, wherein the protrusions are pyramidal or semi-spherical. Solar collector according to one of the preceding claims, wherein a layer of photovoltaic material is arranged on the surface receiving the sunlight. Solar collector according to claim 7 and according to claim 5 or 6, wherein the layer of photovoltaic material is applied to the protrusions. 1027567-% 9. Solar collector according to claim 7 or 8, wherein the energy generated by the photovoltaic material is used for heating the heat-absorbing medium. A method for generating energy with a solar collector according to any one of the preceding claims, comprising the step of flowing a heat-absorbing medium through the gap. 11. Method according to claim 9, wherein the heat-absorbing medium comprises pigment particles, for example carbon particles. 1027567-