Solar tracking method for water drifting photovoltaic panel
A solar tracking and photovoltaic panel technology, applied in the field of solar tracking, can solve the problems of inability to adjust the direction of the floating device on the water, control the light intensity, waste solar energy resources, etc., and achieve the effects of low cost, flexible direction adjustment, and water conservation.
Pending Publication Date: 2021-11-02
CHANGZHOU INST OF TECH
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Problems solved by technology
[0007] From the above journals, it can be seen that the floating photovoltaic power station is mainly divided into floating on the water and fixed on the pile foundation. The current Zhuangzhu floating photovoltaic power station has a high production cost and is difficult to construct, and the floating device on the water cannot adjust the direction flexibly.
Existing floating photovoltaics cannot be regulated according to different light intensities, thus wasting part of solar energy resources
There are currently no inventions that apply airbags to adjust photovoltaic panels
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Embodiment 1
[0035] refer to Figure 1 to Figure 6 , a solar tracking method for drifting photovoltaic panels on water, comprising the following steps:
[0036] S1. Airbag 1, airbag 2, airbag 3 and airbag 4 are installed at the four corners of the bottom of the photovoltaic panel of the floating photovoltaic power station to control the angle of the photovoltaic panel, and the airbag 1, airbag 2, airbag 3 and airbag 4 are respectively inflated by air pumps. ;
[0037] S2. Obtain the relationship between the height difference of the airbag and the inflation time;
[0038] S3. By decomposing the light source, the angular position of the photovoltaic panel is continuously adjusted, and the position of the maximum light intensity of the sub-plane is found during adjustment;
[0039] S4. Combining the two planes to obtain the position with the highest light intensity.
[0040] Among them, when the relationship between the height difference of the airbag and the inflation time is obtained in ...
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The invention discloses a solar tracking method for a water drifting photovoltaic panel, which is technically characterized by comprising the following steps: S1, arranging an air bag 1, an air bag 2, an air bag 3 and an air bag 4 for controlling the angle of the photovoltaic panel at four corners of the bottom of the photovoltaic panel of a water photovoltaic power station, and performing inflation control on the air bag 1, the air bag 2, the air bag 3 and the air bag 4 by using an air pump; s2, obtaining the relation between the air bag height difference and the inflation time; s3, decomposing the light source, continuously adjusting the angle position of the photovoltaic panel, and finding out the position of the maximum illumination intensity of the sub-plane during adjustment; and s4, synthesizing two planes, and obtaining the position with the maximum illumination intensity. The solar tracking method for the water drifting photovoltaic panel is low in cost, evaporation is reduced, water resources are saved, cleaning is convenient, and the direction can be freely adjusted and controlled. And the maximum solar energy can be obtained in the maximum range, and the maximum power generation efficiency is achieved.
Description
technical field [0001] The invention relates to the field of electric power, in particular to a solar tracking method for floating photovoltaic panels on water. Background technique [0002] With the rapid development of the global photovoltaic industry, it has more and more extensive application fields, and floating photovoltaic is one of them. As a kind of renewable energy, solar energy is inexhaustible. As the main force of clean energy power generation in my country, it has been widely used in people's production and life, and plays an important role in the long-term energy strategy. [0003] Floating photovoltaic power stations refer to photovoltaic power stations built on ponds, small and medium-sized natural lakes, reservoirs, reservoirs, and lakes formed in coal mining subsidence areas. The current floating photovoltaic power station has a single direction and cannot move freely. [0004] Zhang Muzi and Wang Yicheng pointed out in the "Global Water Photovoltaic Ind...
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IPC IPC(8): H02S20/32B63B35/44
CPCH02S20/32B63B35/44B63B2035/4453B63B2209/18Y02E10/50
Inventor 陈功施晨姜楠左佑钱佳林石亚兰钱豪周康邓茹艳耿冯欣王磊
Owner CHANGZHOU INST OF TECH