CN102263415A

CN102263415A - Floating wind and photovoltaic hybrid grid-connected generation system

Info

Publication number: CN102263415A
Application number: CN2010101907376A
Authority: CN
Inventors: 张鹏
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-05-25
Filing date: 2010-05-25
Publication date: 2011-11-30

Abstract

The invention discloses a floating wind and photovoltaic hybrid grid-connected generation system, which comprises a solar cell component, a buoyancy tank, an anchor, a grid-connected control inverter, cables, a bracket, a wind driven generator and a power grid, wherein the buoyancy tank is a hollow tank body; the grid-connected control inverter is arranged in the buoyancy tank; the solar cell component is tiled and fixedly arranged on the upper plane of the buoyancy tank; the wind driven generator is fixedly connected to the upper plane of the buoyancy tank by the bracket; the anchor is connected to the lower end of the buoyancy tank; the solar cell component and the wind driven generator are connected to the grid-connected control inverter by the cables respectively; and the grid-connected control inverter is connected to the power grid by the cable. The floating wind and photovoltaic hybrid grid-connected generation system provided by the invention can be conveniently arranged in seas and rivers, and fully utilizes a water area forming 70 percent of an earth surface.

Description

A kind of wind light mutual complementing grid-connected system waterborne

Technical field

The present invention relates to a kind of wind light mutual complementing grid-connected system, refer in particular to a kind of wind light mutual complementing grid-connected system waterborne.

Background technology

As everyone knows, wind power generation and photovoltaic generation are two kinds of reproducible clean energy resourcies, wind power grid-connected generating system and grid-connected photovoltaic system have been begun to build in a large number at present on land, but also do not appear at the situation of construction wind generator systems waterborne such as ocean, river and grid-connected photovoltaic system, and the area waterborne on occupation of land ball surface 70%, wind-resources and sunshine resource all very abundant, if be not used, will be huge waste.

Summary of the invention

The problem to be solved in the present invention is the deficiency that overcomes in the background technology, a kind of wind light mutual complementing grid-connected system waterborne is provided, this wind light mutual complementing grid-connected system waterborne, solar module and wind-driven generator are installed on the buoyancy tank, and that buoyancy tank can be placed in easily is waterborne, has made full use of the area waterborne that takes up an area of ball surface 70%.

For addressing the above problem, the present invention takes following technical scheme:

A kind of wind light mutual complementing grid-connected system waterborne of the present invention comprises solar module, buoyancy tank, anchor iron, the control inverter that is incorporated into the power networks, cable, support, wind-driven generator, electrical network; Buoyancy tank is the casing of hollow, and the control inverter that is incorporated into the power networks is installed on the inside of buoyancy tank, and solar module tiling is fixedly installed in the last plane of buoyancy tank, and wind-driven generator is fixedly connected on the last plane of buoyancy tank by support, and anchor iron is connected the lower end of buoyancy tank; Solar module and wind-driven generator are connected to the control inverter that is incorporated into the power networks by cable respectively, and the control inverter that is incorporated into the power networks is connected to electrical network by cable.

Solar module adopts monocrystaline silicon solar cell assembly or polycrystalline solar module.

380 volts of power supplys of control inverter output AC are incorporated into the power networks.

Electrical network is to exchange 380 volts of electrical networks.

Wind light mutual complementing grid-connected system waterborne of the present invention, because the buoyancy tank that adopts is the casing of hollow, the control inverter that is incorporated into the power networks is installed on the inside of buoyancy tank, the solar module tiling is fixedly installed in the last plane of buoyancy tank, wind-driven generator is fixedly connected on the last plane of buoyancy tank by support, and anchor iron is connected the lower end of buoyancy tank, therefore, can be placed in easily in ocean, the river, make full use of the area waterborne that takes up an area of ball surface 70%.

Description of drawings

Fig. 1 is a structural representation of the present invention.

Embodiment

As shown in Figure 1, a kind of wind light mutual complementing grid-connected system waterborne of the present invention comprises solar module 1, buoyancy tank 2, anchor iron 3, the control inverter 4 that is incorporated into the power networks, cable 5, support 6, wind-driven generator 7, electrical network 8; Buoyancy tank 2 is casings of hollow, the control inverter 4 that is incorporated into the power networks is installed on the inside of buoyancy tank 2, solar module 1 tiling is fixedly installed in the last plane of buoyancy tank 2, wind-driven generator 7 is fixedly connected on the last plane of buoyancy tank 2 by support 6, anchor iron 3 is connected the lower end of buoyancy tank 2, solar module 1 and wind-driven generator 7 are connected to the control inverter 4 that is incorporated into the power networks by cable 5 respectively, and the control inverter 4 that is incorporated into the power networks is connected to electrical network 8 by cable 5.

Described solar module 1 is the monocrystaline silicon solar cell assembly.

Described solar module 1 is a polycrystalline solar module.

The described 380 volts of power supplys of control inverter 4 output ACs that are incorporated into the power networks.

Described electrical network 8 is to exchange 380 volts of electrical networks.

Claims

1. a wind light mutual complementing grid-connected system waterborne comprises solar module (1), buoyancy tank (2), anchor iron (3), the control inverter that is incorporated into the power networks (4), cable (5), support (6), wind-driven generator (7), electrical network (8); It is characterized in that: described buoyancy tank (2) is the casing of hollow, the described control inverter that is incorporated into the power networks (4) is installed on the inside of buoyancy tank (2), described solar module (1) tiling is fixedly installed in the last plane of buoyancy tank (2), described wind-driven generator (7) is fixedly connected on the last plane of buoyancy tank (2) by support (6), described anchor iron (3) is connected the lower end of buoyancy tank (2), solar module (1) and wind-driven generator (7) are connected to the control inverter that is incorporated into the power networks (4) by cable (5) respectively, and the control inverter that is incorporated into the power networks (4) is connected to electrical network (8) by cable (5).

2. a kind of wind light mutual complementing grid-connected system waterborne according to claim 1, it is characterized in that: described solar module (1) is the monocrystaline silicon solar cell assembly.

3. a kind of wind light mutual complementing grid-connected system waterborne according to claim 1, it is characterized in that: described solar module (1) is a polycrystalline solar module.

4. a kind of wind light mutual complementing grid-connected system waterborne according to claim 1 is characterized in that: 380 volts of power supplys of the described control inverter that is incorporated into the power networks (4) output AC.

5. a kind of wind light mutual complementing grid-connected system waterborne according to claim 1 is characterized in that: described electrical network (8) is to exchange 380 volts of electrical networks.