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Modeled ecological photovoltaic desertification control system
The invention discloses a modeled ecological photovoltaic desertification control system which comprises a plurality of rows of ecological photovoltaic mechanisms which are evenly arranged at intervals, and three rows of drought-enduring plants are correspondingly planted between every two adjacent ecological photovoltaic mechanisms. An operation road area is reserved between every two adjacent rows of drought-enduring plants, and a viscous dust blocking area and a natural rainfall receiving area are reserved between the drought-enduring plants on the two sides and the ecological photovoltaic mechanisms on the corresponding sides. Three rows of drought-enduring plants are correspondingly planted in every two adjacent rows of ecological photovoltaic mechanisms, an operation road area is reserved between every two adjacent drought-enduring plants and is used for machine equipment operation, and a blocking viscous dust retention area and a natural rainfall area are arranged between every two adjacent ecological photovoltaic mechanisms and are used for preventing the machine equipment operation. The functions of blocking sand and dust and effectively receiving rainwater can be achieved, and the survival rate of drought-enduring plants is greatly increased; according to the device, a 1441 modeled ecological management system is formed according to the specifically set distance, and the sand control and prevention effect can be effectively improved.
本发明公开一种模式化生态光伏治沙系统,包括若干行间隔均匀设置的生态光伏机构,相邻的生态光伏机构之间对应种植有三行耐旱植物;相邻行的耐旱植物之间留有作业道路区域,且两侧的耐旱植物还分别与对应侧的生态光伏机构之间留有阻隔粘性滞尘区域以及接收自然降水区域。本装置相邻的两行生态光伏机构中相应种植三行耐旱植物,相邻的耐旱植物之间留出来作业道路区域,用于机器设备作业,相邻的生态光伏机构之间设置阻隔粘性滞尘区域和自然降水区域,可以达到较好的阻隔沙尘以及有效接收雨水的功能,耐旱植物的成活率大大提升;本装置根据具体设置的距离形成“1441”的模式化生态治理系统,可有效提升治沙防沙效果。
Modeled ecological photovoltaic desertification control system
The invention discloses a modeled ecological photovoltaic desertification control system which comprises a plurality of rows of ecological photovoltaic mechanisms which are evenly arranged at intervals, and three rows of drought-enduring plants are correspondingly planted between every two adjacent ecological photovoltaic mechanisms. An operation road area is reserved between every two adjacent rows of drought-enduring plants, and a viscous dust blocking area and a natural rainfall receiving area are reserved between the drought-enduring plants on the two sides and the ecological photovoltaic mechanisms on the corresponding sides. Three rows of drought-enduring plants are correspondingly planted in every two adjacent rows of ecological photovoltaic mechanisms, an operation road area is reserved between every two adjacent drought-enduring plants and is used for machine equipment operation, and a blocking viscous dust retention area and a natural rainfall area are arranged between every two adjacent ecological photovoltaic mechanisms and are used for preventing the machine equipment operation. The functions of blocking sand and dust and effectively receiving rainwater can be achieved, and the survival rate of drought-enduring plants is greatly increased; according to the device, a 1441 modeled ecological management system is formed according to the specifically set distance, and the sand control and prevention effect can be effectively improved.
本发明公开一种模式化生态光伏治沙系统,包括若干行间隔均匀设置的生态光伏机构,相邻的生态光伏机构之间对应种植有三行耐旱植物;相邻行的耐旱植物之间留有作业道路区域,且两侧的耐旱植物还分别与对应侧的生态光伏机构之间留有阻隔粘性滞尘区域以及接收自然降水区域。本装置相邻的两行生态光伏机构中相应种植三行耐旱植物,相邻的耐旱植物之间留出来作业道路区域,用于机器设备作业,相邻的生态光伏机构之间设置阻隔粘性滞尘区域和自然降水区域,可以达到较好的阻隔沙尘以及有效接收雨水的功能,耐旱植物的成活率大大提升;本装置根据具体设置的距离形成“1441”的模式化生态治理系统,可有效提升治沙防沙效果。
Modeled ecological photovoltaic desertification control system
一种模式化生态光伏治沙系统
LI XINLE (author) / ZHANG JINGBO (author) / LIU YAJING (author) / WANG DANYANG (author) / MAKI HITOSHI (author) / AHN KYUNG-WON (author) / SHANG MIN (author) / HAI LU (author)
2024-11-22
Patent
Electronic Resource
Chinese
IPC:
H02S
GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRA-RED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, E.G. USING PHOTOVOLTAIC [PV] MODULES
,
Erzeugung elektrischer Energie durch Umwandlung von Infrarot-Strahlung, sichtbarem Licht oder ultraviolettem Licht, z.B. unter Verwendung von Photovoltaik [PV]-Modulen
/
A01G
Gartenbau
,
HORTICULTURE
/
B01D
SEPARATION
,
Trennen
/
E02D
FOUNDATIONS
,
Gründungen
Desertification control device and photovoltaic desertification control system
| European Patent Office | 2023