WO2018018100A4

WO2018018100A4 - Photovoltaic element arrangement system

Info

Publication number: WO2018018100A4
Application number: PCT/BG2017/000017
Authority: WO
Inventors: Chavdar Georgiev Georgiev
Original assignee: Chavdar Georgiev Georgiev
Priority date: 2016-07-25
Filing date: 2017-07-20
Publication date: 2018-03-29
Also published as: EA201900076A1; WO2018018100A1; EP3488522A1; BG112341A; EA036209B1; BG67028B1

Abstract

This invention refers to a photovoltaic element arrangement system which will can be used for the generation of electric power from solar radiation. A system was created, composed of photovoltaic elements (4), within a frame (2), forming a photovoltaic module (1), placed on top of a supporting structure (3). According to the invention, in each photovoltaic module (1) two or more than two of the photovoltaic elements (4) are arranged in the same plane or in different planes, in contact with each other and forming rows of elements. Each two of these neighbouring planes form v and/or A - shaped rows, at an angle β between them, within the range from 52° to 108°. The plane of each row of photovoltaic elements (4) is at an angle a against the mounting surface of the module (1), within the range from 36° to 64°. The adjacent v and/or A - shaped rows of photovoltaic elements (4) form a spatial shape similar to a roofing construction of a sequence of double-sloped roofs. The same system is implemented in a similar manner for the construction of the photovoltaic modules within photovoltaic power plants.

Claims

AMENDED CLAIMS received by the International Bureau on 13 February 2018 (13.02.2018)

1. A system of arrangement of flat electricity-producing photovoltaic elements (photovoltaic silicon cells or photovoltaic electricity-producing elements from another material - 4 in Fig. 1), consisting of photovoltaic elements, within a frame (2 in Fig. 1), with a base (back or mounting surface; side walls and glass or other transparent sheet turned towards the direction of the solar radiation, forming a photovoltaic module/photovoltaic panel - 1 in Fig.1), placed on top of a supporting structure, characterized by the fact that in each photovoltaic module/panel (1 in Fig. 1) the electrically connected two or more than two of the constituent photovoltaic elements (4 in Fig. 1) are arranged in different planes, in contact with each other and forming opposite V and/or Λ-shaped rows of photovoltaic cells in different planes, at an angle β between them, within the range from 52° to 108° (Fig. 2), each row of the photovoltaic elements in one plane (4 in Fig. 1), arranged against the mounting surface of the photovoltaic module/panel at an angle a within the range from 36° to 64° (Fig. 2), where the adjacent V and/or Λ-shaped rows of the photovoltaic elements (4 in Fig. 1) form a spatial shape similar to the roofing construction of a sequence of double-sloped roofs.

2. A system of spatial arrangement of the photovoltaic panels (photovoltaic modules) in photovoltaic power plants, characterized by the fact that in each photovoltaic power plant (PV plant) two or more than two photovoltaic modules are arranged in different opposite planes, whereby in contact or very close to each other with one side these form opposite v and/or Λ-shaped rows of different planes, at an angle β between them, within the range from 52° to 108° (Fig. 2), each row of the photovoltaic modules/panels in one plane arranged against the surface onto which the power plant is built (the ground, water or buildings) at an angle a within the range from 36° to 64° (Fig. 2), where the adjacent V and/or Λ-shaped rows of the photovoltaic modules form a spatial shape similar to the roofing construction of a sequence of double-sloped roofs.

3. A system of spatial arrangement of photovoltaic elements (photovoltaic cells, whatever material they are made from) in photovoltaic panels (photovoltaic modules) characterized by the fact that the photovoltaic elements electrically connected with each other are arranged next to each other, pursuant to Claim 1 , so that due to their geometric shape and/or bending (if they are flexible) and/or considerably smaller area than the area of the surface of the supporting element onto which they are mounted, form (make up) spatial bodies whose shapes may be conical, pyramidal, spherical, hemispherical and parabolically concaved, or a combination thereof, whereby the electricity-producing surfaces or sides of two opposite elements make the angle β between them, within the range from 52° to 108° (Fig. 2), while the same surfaces or sides of the photovoltaic elements make the angle a with the mounting surface (the base, back) of the photovoltaic panel/module, within the range from 36° to 64° (Fig. 2).

4. A system of spatial arrangement of the photovoltaic panels (photovoltaic modules) in photovoltaic power plants (PV plants) characterized by the fact that the photovoltaic panels/modules are arranged in such a way so as due to their geometric shape and/or bending (if they are flexible) and/or considerably smaller area than the area of supporting bodies onto which they are mounted, form (make up) spatial bodies whose shapes may be conical, pyramidal, spherical, hemispherical and parabolically concaved, or a combination thereof, whereby the electricity-producing surfaces or sides of two or more opposite photovoltaic panels/modules forming convex or concave spatial shapes make the angle β between them, within the range from 52° to 108° (Fig. 2), while the same surfaces or sides make the angle a with the mounting surface (the ground, water or buildings or on the surface of bodies in the air) of the photovoltaic panel/module, within the range from 36° to 64° (Fig. 2).

5. A system of arrangement of flat electricity-producing photovoltaic elements (photovoltaic silicon cells or photovoltaic electricity-producing elements made from another material); and/or a system of spatial arrangement of the photovoltaic panels (photovoltaic modules) in photovoltaic power plants characterized by the fact that angle a and angle β are equal to each other and are 60° each (Fig. 2), pursuant to Claim 1 , and/or Claim 2, and/or Claim 3, and/or Claim 4.

6. A system of arrangement of flat electricity-producing photovoltaic elements (photovoltaic silicon cells or photovoltaic electricity-producing elements made from another material); or a system of spatial arrangement of the photovoltaic panels (photovoltaic modules) in photovoltaic power plants (PV plants) characterized by the fact that angle a is 45°, and angle β is 90° (Fig. 2), pursuant to Claim 1 , and/or Claim 2, and/or Claim 3, and/or Claim 4.

7. A system of arrangement of flat electricity-producing photovoltaic elements (photovoltaic silicon cells or photovoltaic electricity-producing elements made from another material); or a system of spatial arrangement of the photovoltaic panels (photovoltaic modules) in photovoltaic power plants (PV plants) characterized by the fact that angle a is 50°, and angle β is 80° (Fig. 2), pursuant to Claim 1 , and/or Claim 2, and/or Claim 3, and/or Claim 4.

8. A system of arrangement of flat electricity-producing photovoltaic elements (photovoltaic silicon cells or photovoltaic electricity-producing elements made from another material); or a system of spatial arrangement of the photovoltaic panels (photovoltaic modules) in photovoltaic power plants (PV plants) characterized by the fact that angle a is 55°, and angle β is 70° (Fig. 2), pursuant to Claim 1 , and/or Claim 2, and/or Claim 3, and/or Claim 4.