A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Desert region water resource sustainable utilization system construction method
The invention discloses a construction method of a sustainable utilization system for water resources in a desert region. The system comprises a water collector, a reservoir and an infiltrating irrigation module, the water collector collects water resources obtained through atmospheric precipitation and water vapor condensation, and water is primarily filtered and then transferred to the reservoir and the infiltrating irrigation module; the reservoir stores water resources exceeding the water amount required by the infiltrating irrigation module, and the water resources are used as farmland standby irrigation water in drought; the infiltrating irrigation modules are arranged at specific positions of a farmland and a forest through underground pipelines, and water resources are supplemented to crops and sand-fixing plants in good time; the water collector, the reservoir and the infiltrating irrigation module are communicated through an underground pipeline; the system can ensure the balance of power supply and power utilization of a water collection part in the system, effectively recover the moisture of atmospheric precipitation and water vapor condensation, apply the moisture to an infiltrating irrigation system, ensure water conservation while collecting water, adjust water backflow according to the actual water use condition, realize sustainable utilization of water resources in desert regions to the maximum extent, reduce underground water exploitation and reduce the production cost. The environment is protected.
本发明公开了一种荒漠区水资源可持续利用系统构建方法,包括集水器、蓄水池、渗灌模块;集水器收集大气降水、水汽冷凝途径获取的水资源,将水经初滤后转移至蓄水池及渗灌模块;蓄水池储存超出渗灌模块所需水量的水资源,此水资源作为干旱时的农田备用灌溉水;渗灌模块通过地下管道排布于农田、树林的特定位置,适时对农作物、固沙植物进行水资源补充;集水器、蓄水池、渗灌模块通过地下管路联通;本系统可保证系统内集水部分供电用电平衡,有效回收大气降水及水汽冷凝的水分,将其应用至渗灌系统,集水的同时保证节水,还可根据实际用水情况调节水返流,最大程度实现荒漠地区水资源可持续利用,也可以减少地下水开采,保护环境。
Desert region water resource sustainable utilization system construction method
The invention discloses a construction method of a sustainable utilization system for water resources in a desert region. The system comprises a water collector, a reservoir and an infiltrating irrigation module, the water collector collects water resources obtained through atmospheric precipitation and water vapor condensation, and water is primarily filtered and then transferred to the reservoir and the infiltrating irrigation module; the reservoir stores water resources exceeding the water amount required by the infiltrating irrigation module, and the water resources are used as farmland standby irrigation water in drought; the infiltrating irrigation modules are arranged at specific positions of a farmland and a forest through underground pipelines, and water resources are supplemented to crops and sand-fixing plants in good time; the water collector, the reservoir and the infiltrating irrigation module are communicated through an underground pipeline; the system can ensure the balance of power supply and power utilization of a water collection part in the system, effectively recover the moisture of atmospheric precipitation and water vapor condensation, apply the moisture to an infiltrating irrigation system, ensure water conservation while collecting water, adjust water backflow according to the actual water use condition, realize sustainable utilization of water resources in desert regions to the maximum extent, reduce underground water exploitation and reduce the production cost. The environment is protected.
本发明公开了一种荒漠区水资源可持续利用系统构建方法,包括集水器、蓄水池、渗灌模块;集水器收集大气降水、水汽冷凝途径获取的水资源,将水经初滤后转移至蓄水池及渗灌模块;蓄水池储存超出渗灌模块所需水量的水资源,此水资源作为干旱时的农田备用灌溉水;渗灌模块通过地下管道排布于农田、树林的特定位置,适时对农作物、固沙植物进行水资源补充;集水器、蓄水池、渗灌模块通过地下管路联通;本系统可保证系统内集水部分供电用电平衡,有效回收大气降水及水汽冷凝的水分,将其应用至渗灌系统,集水的同时保证节水,还可根据实际用水情况调节水返流,最大程度实现荒漠地区水资源可持续利用,也可以减少地下水开采,保护环境。
Desert region water resource sustainable utilization system construction method
一种荒漠区水资源可持续利用系统构建方法
MIAO PING (author) / LUAN JINKAI (author) / DAGOURA (author) / TIAN XIAOQIANG (author) / TIAN XIAOJUN (author) / ZHANG JINNIU (author) / CAO YANWEI (author) / MA HONGLI (author) / YANG JIE (author) / GUO JINMEI (author)
2023-05-09
Patent
Electronic Resource
Chinese
IPC:
E03B
Anlagen oder Verfahren zum Gewinnen, Sammeln oder Verteilen von Wasser
,
INSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
/
A01G
Gartenbau
,
HORTICULTURE
/
E03F
SEWERS
,
Abwasserkanäle
/
G01F
Messen des Volumens, des Durchflussvolumens, des Massendurchflusses oder des Füllstandes
,
MEASURING VOLUME, VOLUME FLOW, MASS FLOW, OR LIQUID LEVEL
/
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
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