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Synergistic mulching film laying method for photovoltaic power station and mulching film synergy detection system

A photovoltaic power station and laying method technology, applied in the monitoring of photovoltaic systems, photovoltaic power generation, botanical equipment and methods, etc., can solve the problems of destroying the flatness and stability of reflective films, unstable methods, and unstable fixation of reflective films, etc. , to achieve the effects of increasing electrical conversion efficiency, increasing backside illumination intensity, and improving stability

Pending Publication Date: 2021-02-19
广州开发区粤电新能源有限公司
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  • Abstract
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The reflective film is pressed on the ground by the self-weight of the concrete fixed block. The concrete fixed block can only be installed on the surrounding edges of the reflective film. The concrete fixed block is unstable to the reflective film, especially in places with strong wind. The method of using concrete fixing blocks to press the edges around the reflective film is more unstable, and in places where there are more weeds, the weeds under the reflective film will only arch up at the top of the reflective film, which will damage the flatness and stability of the reflective film.

Method used

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  • Synergistic mulching film laying method for photovoltaic power station and mulching film synergy detection system
  • Synergistic mulching film laying method for photovoltaic power station and mulching film synergy detection system
  • Synergistic mulching film laying method for photovoltaic power station and mulching film synergy detection system

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Embodiment Construction

[0042] Embodiments of the present invention will be described in detail below.

[0043] see figure 1 , figure 2 As shown, a method for laying synergistic mulch film in a photovoltaic power station provided by the present invention comprises the following steps:

[0044] (1), preparing a ground efficiency film mechanism 10 for a photovoltaic power station using double-sided photovoltaic modules to generate electricity. The synergy film mechanism 10 includes a reflective film 11, a tie net 12, and a plurality of ground nails 13;

[0045] (2), work on the ground 90 below the double-sided photovoltaic module, remove the surface vegetation and weeds on the ground 90 below the double-sided photovoltaic module, and arrange the ground 90 below the double-sided photovoltaic module to form the required shape surface;

[0046] (3), the reflective film 11 of the synergistic film mechanism 10 is flatly covered on the ground surface below the double-sided photovoltaic module, and the ref...

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Abstract

The invention discloses a synergistic mulching film laying method for a photovoltaic power station. The method comprises the steps of removing surface vegetation and weeds on the ground below the photovoltaic power station, laying a reflective mulching film, enabling a tying net to cover the reflective mulching film, finally enabling the tying net to be fixed on the ground through a plurality of ground nails, and fixing the reflective mulching film on the ground through the tying net at the same time. According to the mulching film laying method, the reflective mulching film can be more stablyfixed to the ground below the photovoltaic power station and used for inhibiting growth of weeds on the ground below the photovoltaic power station and improving the power generation capacity of thedouble-sided assembly of the photovoltaic power station; and mulching film synergy detection system for the photovoltaic power station can detect the actual effect of the mulching film laying method,and serves as the data basis of correlation analysis and research.

Description

technical field [0001] The invention relates to the field of photovoltaic power generation, in particular to a method for laying synergistic mulch film for a photovoltaic power station and a system for detecting the synergistic effect of mulch film. Background technique [0002] Bifacial modules are photovoltaic modules composed of crystalline silicon solar cells that receive light on both sides and generate electricity. Compared with conventional single-sided modules, the amount of power generated by bifacial modules is greatly affected by ground reflection. Under normal circumstances, weeds on the ground grow very fast. If they are not managed, the weeds will absorb more light when they grow taller, resulting in a decrease in the reflected light on the ground and affecting the power generation of the power station. If the weeds grow higher and exceed the height of the photovoltaic modules, it will form a frontal shield, and the power generation of the power station will be...

Claims

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Application Information

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IPC IPC(8): H02S40/22H02S50/00H02S50/10H02S20/10H02S40/30A01G13/02E01C9/00E01C19/00
CPCA01G13/0275E01C9/00E01C19/00H02S50/00H02S20/10H02S40/22H02S40/30H02S50/10Y02E10/52Y02P60/12
Inventor 陈文理刘圣成李冠峰姚文杰华林青罗智超陈树伟刘佳柯潮彬练成雄
Owner 广州开发区粤电新能源有限公司
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