Thin-film photovoltaic power generation and rainwater collection irrigation system suitable for rain sheltering cultivation
A rain-shelter cultivation and thin-film photovoltaic technology, which is applied in cultivation, greenhouse cultivation, climate change adaptation, etc., can solve problems such as soil erosion and photovoltaic power generation occupying cultivated land, and achieve the effect of efficient water-saving irrigation
Active Publication Date: 2018-10-02
INST OF ENVIRONMENT & SUSTAINABLE DEV IN AGRI CHINESE ACADEMY OF AGRI SCI
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[0004] In view of the problems mentioned in the background technology, the present invention aims to provide a thin-film photovoltaic power generation and rain-collection irrigation system suitable for rain-shelter cultivation, solve the problems of photovoltaic power generation occupying cultivated land and soil erosion, make full use of physical space, and integrate photovoltaic power generation with Combine rain-shelter cultivation techniques to achieve controllable irrigation
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[0019] Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
[0020] combined with Figure 1-4 , the reinforced concrete foundation 1 is set at an appropriate distance on both sides of the crop 9, and the columns 2 and 3 are firmly combined with the foundation respectively. The height meets the normal growth of crops, the longitudinal beam 4 is firmly combined with the column 2, 3, and then the beam 5 is firmly combined with the longitudinal beam 4, the glass is placed on the plane formed by the beam, and the thin film photovoltaic module is also placed on the plane formed by the beam. On the plane, that is: the thin-film photovoltaic module and the glass are on the same plane, and together constitute the roof of the greenhouse for rain-shelter cultivation facilities. When it rains, the roof will be a larger rain-collecting surface.
[0021] The specification of a photovoltaic module is length×width×thic...
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The invention relates to a thin-film photovoltaic power generation and rainwater collection irrigation system suitable for rain sheltering cultivation. The system comprises a rain sheltering cultivation facility greenhouse frame, a thin-film photovoltaic power generation component, glass, a rainwater collection channel, an open channel, a water storage tank, a water conveying pipe, a water seepagepipe, a drainage ditch and the like. The glass is arranged on the upper portion of the rain sheltering cultivation facility greenhouse frame, the thin-film photovoltaic power generation component covers the upper portion of the greenhouse frame, and the glass and the thin-film photovoltaic power generation component form a rain sheltering cultivation facility greenhouse roof and are positioned onthe same plane. The system is combined with a photovoltaic power generation technique, a rain sheltering cultivation technique and an infiltrating irrigation technique, and a rainwater collection irrigation system suitable for rain sheltering cultivation of crops is designed based on an existing thin-film photovoltaic power generation device. The system develops rain sheltering cultivation agriculture when power generation is achieved and has the advantages that the system is efficient, clean, environmental friendly, efficient in energy and water, small in occupied area, less in water and soil loss, wide application range and the like.
Description
technical field [0001] The invention relates to the field of photovoltaic power generation and irrigation, in particular to a thin-film photovoltaic power generation and rain-collecting irrigation system suitable for rain-shelter cultivation. technical background [0002] In recent years, on the basis of open-field cultivation, rain-shelter cultivation techniques have been developed. Generally speaking, rain-shelter cultivation covers the crops with plastic film or glass. On vines and fruits, the advantage of this cultivation technology is to reduce air humidity, thereby reducing the reproduction of pathogens, and effectively reducing the occurrence and damage of diseases. This technology is effective for peaches, grapes and other crops that are sensitive to air humidity; at the same time, it can also control Excessive rainwater enters the roots of crops, combined with irrigation systems can improve the moisture conditions of crops, thereby improving crop yield and quality. ...
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IPC IPC(8): A01G9/14A01G9/26E03B3/02
CPCA01G9/1407A01G9/1438A01G9/1476A01G9/26E03B3/02Y02A20/108Y02A40/25Y02P60/12Y02P60/14
Inventor 龚道枝唐大华梅旭荣王丽娟郝卫平李昊儒高丽丽
Owner INST OF ENVIRONMENT & SUSTAINABLE DEV IN AGRI CHINESE ACADEMY OF AGRI SCI
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