ES2365959A1 - Photovoltaic solar concentration module and modular disposal comprising such module. (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Solar photovoltaic concentration module and modular arrangement comprising said module. It allows solar photovoltaic concentration with high acceptance and optical efficiency and with protection against environmental agents, by means of a module (1) that incorporates a plurality of concentration lenses (2) and interconnected photovoltaic cells (3), fixed to a substrate (4) ) and on which the lenses (2) rest, and which comprise an entrance zone (5) of light by which they are fixed to a front panel (8), and an exit zone (6) of light, by the which are arranged on the photovoltaic cells (3) resting on the substrate (4). Said substrate (4) and said front panel (8) are closed, protecting the cells (3) and the lenses (2) from environmental agents. Several modules (1) are arranged in a support structure (10), with adjustable inclination without the need to use mechanically active elements. (Machine-translation by Google Translate, not legally binding)

Description

Photovoltaic solar concentration module and modular arrangement comprising said module.

Object of the invention

The present invention can be encompassed within of the technical field of electric power generation using the photovoltaic effect More specifically, a first object of the invention relates to a solar concentration module Photovoltaic According to a second object of the invention, it is presented a modular arrangement comprising at least one such modules

Background of the invention

The definition of solar concentrator systems is based on the reduction of the use of photovoltaic receiver materials by means of the use of optical elements, capable of concentrating in the plane where the receiver is located the solar radiation that affects the concentrator with a certain angle of
view.

The concentration systems for technology high and medium concentration photovoltaic, due to the low angle of vision that characterizes them, they are only viable using structures mobiles that produce solar tracking on two axes. The complexity of these mobile structures, both in design and in construction and maintenance, increases the complexity and costs of system. At the same time, these types of modules usually have a thickness much greater than conventional photovoltaic modules, not being possible to use the conventional elements and techniques to its installation, also making the solution more expensive.

On the other hand, there are low systems concentration that could be used in follower systems of a axis, less complicated than two-axis systems, and with a thickness comparable to conventional modules. To be able to reach one effective solution that achieves a similar production to the of a conventional module, it is necessary to achieve high efficiency optical, at the same time as a high angle of acceptance. Generally, in these modules the optics will be built with plastic or acrylic materials to reach a solution Economical with the required tolerances. These materials are very sensitive to moisture penetration or abrasion, decreasing their efficiency if they are exposed to this type of environmental agents external To avoid degradation effects, it is necessary that both optical components such as the photovoltaic cell are protected Facing environmental conditions. There are low modules concentration, such as in the module that would be manufactured with the method described in WO 2010/068902, in which the optical elements are not protected from external agents, limiting drastically the durability of the module.

In light of what has just been exposed, the technical problem that arises is the definition of a module low concentration photovoltaic (with a concentration factor between 3 and 10), which incorporates a high efficiency optics, greater 90%, and high acceptance angle values, preferably greater than ± 8 degrees. In this regard, the patent application Spanish P201030331, also owned by the applicant, describes a photovoltaic concentration module comprising lenses of solid optics to obtain a concentration factor included between 3 and 10, which also allows to be used without devices active tracking, making use of structural elements conventional to achieve a production similar to that of a conventional module

In addition, the module of the invention must be capable of resisting environmental conditions in order to avoid degradation of the optical elements that it integrates. Like the conventional modules, said module must be capable of being used in photovoltaic plants using elements conventional structural to achieve a production similar to that of a conventional module, obtaining a cost reduction in this new module thanks to the use of concentration.

Description of the invention

The present invention resolves the inconveniences posed, by, according to a first object of the invention, a photovoltaic solar concentration module that it comprises a plurality of concentration lenses; and one plurality of interconnected photovoltaic cells, fixed to a substrate and on which the lenses rest.

The lenses are solid optics with reflection internal total and can be manufactured in various materials, such as for example glass, although acrylic materials are preferred, such as, for example, PMMA, due to economic conditions and its under weight. The concentration lenses comprise an area of entrance, through which sunlight accesses each lens, as well as a exit zone, through which sunlight leaves each lens. The lenses have a longitudinal dimension substantially greater than the dimensions of its cross section, and are arranged parallel to each other, according to an alignment of lenses with the longitudinal dimension in common or according to a matrix of lenses, by contiguous arrangement of lenses in the direction longitudinal and in transverse direction.

The lenses are fixed by their area of entrance to a front panel, through a film of a product high transparency adhesive, for example, EVA (ethyl vinyl acetate), silicone, adhesive Acrylic, UV curing adhesive, or the like. The panel frontal serves as structural support of the module, offering the same lens protection time against environmental agents external and is preferably made of glass or a acrylic material The front panel can incorporate a treatment to decrease moisture penetration, increase resistance to abrasion, or increase the transmission of light to the lenses (layer anti-reflective).

The exit zone of the lenses is located, also, arranged on interconnected photovoltaic cells, resting said cells on the substrate. The cells they have a reduced thickness with respect to their width, as well as a Length substantially greater than the width. The width of the cells and the separation between these cells depend on each design specific. The cells can be thin layer or manufactured in high efficiency silicon or conventional silicon. The cells are interconnect by means of parallel and series unions, forming one or more chains, which are connected in parallel on a single common output of the module, being able to incorporate diodes of step. These diodes are connect in parallel, with reverse polarity, to one or more cells connected to each other in series, in order to protect the cells and minimize losses in partial shading situations in the module.

The substrate acts as structural support and facilitates, by conduction, the dissipation of the heat generated in the cells. The substrate can be made of metal, or metal coated with an electrical insulating layer or, alternatively, It can be made of glass.

The substrate and the front panel are closed and seal, enclosing inside the set of lenses and cells interconnected, to protect them from the outside. Closing and sealing it can be carried out preferably by means of technology double glazing or by using an outer frame, together with a sealant, for example, silicone that prevents the penetration of humidity in the module. The outer frame can be manufactured in aluminum or extruded plastic, to facilitate the sealing of the module, provide structural rigidity and facilitate anchoring of the module to support structures.

Thanks to the use of solid optical lenses with Total internal reflection, low photovoltaic module concentration of the invention has a concentration factor between 3 and 10, as well as incorporates high optics efficiency, greater than 90%, and acceptance angle preferably greater than ± 8 degrees, although the use of the module for ranges of smaller acceptance angles. Additionally the module the invention provides protection to the optical elements against environmental agents, and is likely to be used in plants photovoltaic using structural elements conventional, both lacking solar tracking and endowed with tracking on one axis or on two axes. Because of all these characteristics it is possible to achieve a production similar to that of a conventional module, obtaining a cost reduction in the module thanks to the use of concentration technology.

Regardless of which module the invention is adaptable to any structural element conventional, according to a second object of the invention, one or, preferably, several modules according to the invention they constitute a modular arrangement, where the modules are arranged in a support structure, whose inclination is adjustable by permutation between several positions interchangeable, without using active elements mechanically.

Description of the drawings

To complement the description that is being performing and in order to help a better understanding of the characteristics of the invention, according to an example preferred practical implementation of it, is accompanied as integral part of that description, a set of drawings where with an illustrative and non-limiting nature, what has been represented next:

Figure 1.- Shows a detail of the module configuration, where the sealing means comprise a outer frame and a silicone.

Figure 2a.- Shows a plurality of modules arranged on a support structure in position of summer.

Figure 2b.- Shows a plurality of modules arranged on a support structure in position of winter.

Figure 3.- Shows a detail of the module configuration, where the sealing means comprise a double glazing system.

Preferred Embodiment of the Invention

Two embodiments are presented below. Preferences of the present invention, with the aid of Figures 1 to 3 attached:

First realization:

As shown in Figure 1, the module (1) photovoltaic solar concentration of the invention understands:

- a plurality of concentration lenses (2), made of an acrylic material, for example PMMA, and that they comprise an entry zone (5) and an exit zone (6), of such so that the beams of sunlight pass through the lenses (2) entering through the entrance area (5) and leaving through the exit zone (6), as well as the lenses (2) are arranged parallel to each other others, according to an alignment of lenses (2) with the dimension longitudinal in common, where the lenses (2) are fixed by their entrance area (5), by means of a high adhesive product (7) transparency, to a front panel, for example glass or material acrylic (8) that can incorporate a treatment to reduce the moisture penetration, increase abrasion resistance, or anti-reflective; Y

- a plurality of photovoltaic cells (3) interconnected, fixed to a substrate (4) and on which they rest the lenses (2).

The lenses (2) are also found arranged in its exit zone (6) on the photovoltaic cells (3), which rest in turn on the substrate (4). The cells (3) are interconnect by means of parallel and series unions, forming one or more chains, which are connected in parallel on a single common output of the module (1), incorporating step diodes. These diodes are are connected in parallel with reverse polarity to one or more cells connected to each other in series, in order to protect the cells and minimize losses in shading situations partials in the module (1).

The substrate (4) acts as a structural support and facilitates, by conduction, the dissipation of the heat generated in the cells (3). The substrate (4) and the front panel (8) are closed and sealed. seal, enclosing inside the set of lenses (2) and interconnected cells (3), to protect them from elements external environmental The closing and sealing is carried out by using an outer frame (9), together with a silicone that prevents moisture penetration into the module (1).

In Figures 2a and 2b a modular arrangement consisting of several modules (1) such as the one of the invention arranged in a support structure (10), whose tilt is adjustable by selective permutation between a summer position (figure 2a) and a winter position (figure 2b), without the need to use mechanically active elements.

Second realization:

In a second preferred embodiment, such and as seen in figure 3, both the front panel (8) and the Substrate (4) of the module (1) are made of glass.

In this case, the sealing of the module (1) is done through double glazing technology. Panel glass front (8) and the substrate (4) of the module are assembled by application of a spacer (11), to maintain the separation of said front panel (8) and said substrate (4), and one or more sealants (12), for example, butyl or silicone, to offer cohesion and adhesion of the spacer (11) with the front panel (8) and the substrate (4).

Claims (15)

1. Module (1) of photovoltaic solar concentration characterized in that it comprises: - a plurality of concentration lenses (2), of the type of solid optics with total internal reflection, to provide the module (1) of a concentration factor between 3 and 10, comprising an input zone (5) of sunlight, as well as a exit zone (6) of sunlight, said lenses (2) arranged parallel to each other, with their longitudinal dimension in common, where the lenses (2) are fixed by their entrance area (5), by means of a high transparency adhesive product (7), at a front panel (8) as a structural support and front protection to environmental agents, and - a plurality of photovoltaic cells (3) interconnected, fixed to a substrate (4) and on which it rests the exit zone (6) of the lenses (2), and where the substrate (4) and the front panel (8) are closed and sealed to enclose the lenses (2) and cells (3), protecting said lenses (2) and said cells (3) of the environmental conditions to avoid their degradation. 2. Module (1) of photovoltaic solar concentration according to claim 1, characterized in that the lenses (2) have an efficiency greater than 90%. 3. Photovoltaic solar concentration module (1) according to claim 1, characterized in that the lenses (2) are made of acrylic material. 4. Photovoltaic solar concentration module (1) according to claim 1, characterized in that the lenses (2) are manufactured in PMMA. 5. Module (1) of photovoltaic solar concentration according to claim 1, characterized in that the lenses (2) are made of glass. 6. Photovoltaic solar concentration module (1) according to claim 1, characterized in that the adhesive product (7) is selected
between:

-

EVE (ethyl vinyl acetate),

-

silicone,

-

acrylic adhesive, or

-

curing adhesive ultraviolet.

7. Photovoltaic solar concentration module (1) according to claim 1, characterized in that the front panel (8) incorporates a treatment to decrease moisture penetration, to increase abrasion resistance, or to increase the transmission of light. 8. Photovoltaic solar concentration module (1) according to claim 1, characterized in that the cells (3) are made of high efficiency silicon, conventional silicon or thin layer cells. 9. Photovoltaic solar concentration module (1) according to claim 1, characterized in that the cells (3) are interconnected by means of parallel and series connections, forming one or more chains, connected in parallel at a single common output of the module ( one); and because the cells (3) incorporate step diodes connected in parallel with inverse polarity to one or more cells (3) connected to each other in series, to protect the cells (3) and minimize losses in partial shading situations in the module (one). 10. Photovoltaic solar concentration module (1) according to claim 1, characterized in that the substrate (4) is made of metal, or metal coated with an electrical insulating layer, or glass. 11. Module (1) of photovoltaic solar concentration according to any one of claims 1, 7 or 10, characterized in that the substrate (4) and the front panel (8) are made of glass and are closed and sealed by technology double glazing using a spacer (11), to maintain the separation of said front panel (8) and said substrate (4), and one or more sealants (12) to provide cohesion and adhesion of the spacer (11) with the front panel ( 8) and the substrate (4). 12. Photovoltaic solar concentration module (1) according to any one of claims 1, 7 or 10, characterized in that the substrate (4) and the front panel (8) are closed and sealed by an outer frame (9), together with a sealant (12) to prevent moisture penetration into the module (1). 13. Photovoltaic solar concentration module (1) according to claim 12, characterized in that the outer frame (9) is made of aluminum or extruded plastic, to facilitate the sealing of the module (1), provide structural rigidity and facilitate the anchorage of the module (1) in support structures (10). 14. Modular arrangement comprising at least one of the photovoltaic solar concentration modules (1) described in any one of the preceding claims, characterized in that it further comprises a support structure (10) on which the modules are arranged. 15. Modular arrangement according to claim 14, characterized in that the modular structure (10) has an adjustable inclination by selective permutation between a summer position, with less inclination with respect to a vertical plane, and a winter position, with greater inclination with respect to a vertical plane, without mechanically active elements.