RU2252371C2 - Solar module with concentrator - Google Patents

Abstract

FIELD: solar radiation engineering.

SUBSTANCE: device has mirror reflector in form of main branch of parabolic-cylindrical concentrator with second semi-cylindrical mirror reflector, receiver with two-side working surface in focus plane of said concentrator, has tank-accumulator, while solar module and tank-accumulator are one-volume body of solar module, and concentrator of solar radiation is also front wall of said module construction, to provide for increase of range of working angles of concentrator. Also, module and tank-accumulator can be made of metal or polymer material.

EFFECT: lower costs, higher efficiency.

2 cl, 2 dwg

Description

The invention relates to solar energy, in particular to solar power modules with concentrators for generating electrical energy and heat.

A solar module with a concentrator is known, in which solar radiation is collected by a parabolocylindrical foclin made of two parabolocylinders and reflected on a radiation receiver mounted on the lower base of the foclin (US patent No. 3923381 dated 2.12.75, CL 350/293, 126 / 271, 350/294).

A disadvantage of the known module is the low concentration associated with its aperture angle α by the ratio:

To _geome = 1 / sinα, at α = 25 °, To _geome = 2.36.

Another disadvantage of the solar module is the low efficiency of solar energy due to uneven illumination of the receiver with concentrated radiation.

A solar photovoltaic module with a solar energy concentrator is known, comprising bilateral solar cells connected and mounted between two sheets of glass in the form of strips perpendicular to the base of the module, two semi-cylindrical concentrators are installed on the back of which are symmetrical with respect to the middle of the solar cells, the total area of which is twice as large area of solar cells. When installed at an angle to the horizon equal to the latitude of the terrain and the polar orientation of the axis of the south-north concentrators, the photovoltaic module operates year-round without tracking the sun with a theoretical concentration coefficient of K = 2. The actual concentration coefficient, taking into account cosine and reflection losses, is 1.56 (I. Edmond, Solar Energy Materials. 1990. # 21, p. 173-190).

The disadvantages of the known photovoltaic module are: low concentration coefficient; the high cost of the module, almost equal to the cost of a photovoltaic module without a hub; the impossibility of using the module for a solar orientation system other than the polar one, for example, in the photovoltaic facades of buildings and for east-west orientation the impossibility of using it in the facades of buildings to obtain heat and lighting of buildings with natural solar radiation.

The closest in technical parameters to the present invention is a solar photovoltaic module with a solar energy concentrator for generating electric energy and heat, in which, to increase the efficiency of using solar energy, the reflector consists of two different parts separated by a plane of symmetry passing through the vertex and the focal axis of the reflector ( Strebkov Dmitry Semenovich, Tveryanovich Eduard Vladimirovich; RF patent No. 2172451; 11.16.2000). To increase the concentration coefficient, the main mirror reflector is made in the form of one branch of a para-cylindrical reflector and is equipped with a second semi-cylindrical mirror reflector, and the bandwidth of the radiation receiver is equal to the radius of the second mirror reflector. A solar module with a hub is installed on the balcony of the building or under the transparent roof of the building.

The disadvantages of the known solar module are the great labor costs in the manufacture of parts and in the assembly of the concentrator and coolant circulation systems, as well as the problems encountered when using the solar module due to the need for transportation and the need for small seasonal loads.

The objective of the invention is to reduce the assembly time of the solar module with a concentrator, reduce material consumption, reduce energy consumption and physical energy costs in the production of solar modules, provide the possibility of using the module and hot water supply systems at low consumer loads without the need for installation of circulation and drainage hot water systems, as well as compact dimensions of this installation, providing the possibility of transportation of the installation and storage during periods of time when the module is not is used. One of the tasks is the efficient use of solar energy and reducing the cost of electricity and heat.

As a result of using the present invention, the assembly time of the solar module concentrator is reduced, the material consumption of the product is reduced, the energy consumption and labor costs in the production of the solar module are reduced, the manufacturability of the manufacturing process and the efficiency of use of solar energy are increased, the cost of electricity and heat is reduced. The solved problem when using the present invention is to combine the main components of the design of the solar module and coolant circulation systems into a common, inexpensive and mobile design.

As a result of application of the design of the concentrator, the problem of separating solar systems based on modular installations with concentrators into stationary and mobile parts is solved. This quality of the concentrator is also very important for those autonomous energy consumers for whom the specificity of work is associated with frequent relocations. A solar module with a concentrator can be used to produce hot water and generate electricity in summer cottages, places of seasonal agricultural production, recreation areas, resort and recreation areas, etc.

The technical result is achieved by the fact that in the solar module there is a mirror reflector containing the main branch of a parabolic-cylindrical concentrator with a second half-cylindrical mirror reflector, a receiver with a two-sided working surface mounted in the focal plane and designed to generate electric energy and hot water, a circulation circuit with water and a tank of the system hot water are mounted directly into the design of the housing of the solar module.

To increase the manufacturability of the installation, save metal, reduce weight and overall dimensions of the solar module, the mirror reflector and the storage tank are made of polymer material.

To increase the manufacturability of the installation, save material, reduce the weight and overall dimensions of the solar module, the mirror reflector, the circulation circuit, and the hot water storage tank are the main body, because made in the form of a one-volume structure of metal or polymer material, and one of the sides of the tank is a receiving element, which allows to increase the range of working angles of the concentrator.

The invention is illustrated figure 1-2.

1, a solar module with a concentrator comprises a focusing mirror reflector 1 having an aperture angle δ; protective coating of glass 2; solar radiation receiver 3; adjustable brackets for securing the solar radiation receiver 4; the electric circuit of the photoelectric converters of the solar radiation receiver 5; circulation circuit 6; crane 7; storage tank 8; filler neck with cap 9.

In Fig.2, a solar module with a concentrator comprises a photoelectric solar radiation receiver 3; combined single-volume module - storage tank 8.

A solar module with a hub works as follows. Cold water is poured into the storage tank 8 through the filler neck 9, which is heated in the solar radiation receiver 3, installed in the focal region of the concentrator, and which, through natural convection, circulates in circuit 6 and is taken by the consumer through the faucet 7. Solar cells mounted on both sides the receiver of solar radiation, generate electrical energy, which is supplied to the load through the electric circuit 5. The plane of the midsection and the side planes of the solar module are equipped with a protective glass coating 2.

In the case of manufacturing a single-volume structure of a solar module with a concentrator, cold water is poured through the neck 9 and is heated in the front lower part of the volume of the module in the focal region of the solar radiation concentrator 1, which is also the front wall of the single-volume structure of the module. Hot water, which circulates through the volume through natural convection, is drawn by the consumer through the faucet 7. In the focal region of the concentrator there is a solar photoelectric detector 3 designed to generate electrical energy, which is supplied to the load through the electric circuit 5. The midsection plane and the side planes of the solar module equipped with a protective glass coating 2.

Claims (2)

1. A solar module with a concentrator, comprising a mirror reflector in the form of a main branch of a parabolic-cylindrical concentrator with a second semi-cylindrical mirror reflector, a receiver with a two-sided working surface in the focal plane of the said concentrator, characterized in that the solar module with a concentrator has a storage tank, the solar module and the storage tank is a single-volume housing of the solar module, and the solar concentrator is also the front wall of the single-volume emnoy module design that allows you to increase the range of operating angles of the hub.  2. The solar module according to claim 1, characterized in that the module and the storage tank are made of metal or polymer material.

Images