A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Green development method for superficial thin-layer fresh water brackish water
The invention discloses a green development method for shallow thin-layer fresh water and brackish water, and relates to the technical field, in particular to a siphon well group system capable of automatically collecting water in multiple wells and a water level-water quality-water quantity intelligent control monitoring system. The siphon well group system comprises a main well, an auxiliary well, a first siphon, a second siphon, an exhaust valve, a submersible pump, a pump pipe and a manual control switch. The water level-water quality-water quantity intelligent control monitoring system comprises a flow meter, an electric ball valve, a pressure sensor, a conductivity sensor and an intelligent control monitoring module. According to the method, water in multiple wells is automatically collected into a water collecting well through the siphon technology, and the water inflow of a single well is increased; water level and water quality sensors are arranged in each well, and water level and water quality threshold values in each well are set according to hydraulic connection and water quality utilization conditions of thin-layer fresh water brackish water and peripheral (lateral and vertical) salt water, so that green and safe exploitation of shallow thin-layer fresh water is realized, and the exploitation potential of underground water resources is improved.
本发明公开了一种浅部薄层淡水微咸水绿色开发方法,涉及技术领域,具体包括能够将多井内的水进行自动汇集的虹吸井群系统和水位‑水质‑水量智能控制监测系统,所述虹吸井群系统包括主井、副井、虹吸管一、虹吸管二、排气阀、潜水泵、泵管、人工控制开关,所述水位‑水质‑水量智能控制监测系统包括流量计、电动球阀、压力传感器、电导率传感器和智能控制监测模块。该方法采用虹吸技术将多井内的水自动汇集到集水井中,实现增大单井涌水量;通过在各井内布设水位、水质传感器,并根据薄层淡水微咸水与周边(侧向和垂向)咸水的水力联系及水质利用条件,设定各井内水位和水质阈值,实现浅部薄层淡水的绿色安全开采,提高地下水资源开采潜力。
Green development method for superficial thin-layer fresh water brackish water
The invention discloses a green development method for shallow thin-layer fresh water and brackish water, and relates to the technical field, in particular to a siphon well group system capable of automatically collecting water in multiple wells and a water level-water quality-water quantity intelligent control monitoring system. The siphon well group system comprises a main well, an auxiliary well, a first siphon, a second siphon, an exhaust valve, a submersible pump, a pump pipe and a manual control switch. The water level-water quality-water quantity intelligent control monitoring system comprises a flow meter, an electric ball valve, a pressure sensor, a conductivity sensor and an intelligent control monitoring module. According to the method, water in multiple wells is automatically collected into a water collecting well through the siphon technology, and the water inflow of a single well is increased; water level and water quality sensors are arranged in each well, and water level and water quality threshold values in each well are set according to hydraulic connection and water quality utilization conditions of thin-layer fresh water brackish water and peripheral (lateral and vertical) salt water, so that green and safe exploitation of shallow thin-layer fresh water is realized, and the exploitation potential of underground water resources is improved.
本发明公开了一种浅部薄层淡水微咸水绿色开发方法,涉及技术领域,具体包括能够将多井内的水进行自动汇集的虹吸井群系统和水位‑水质‑水量智能控制监测系统,所述虹吸井群系统包括主井、副井、虹吸管一、虹吸管二、排气阀、潜水泵、泵管、人工控制开关,所述水位‑水质‑水量智能控制监测系统包括流量计、电动球阀、压力传感器、电导率传感器和智能控制监测模块。该方法采用虹吸技术将多井内的水自动汇集到集水井中,实现增大单井涌水量;通过在各井内布设水位、水质传感器,并根据薄层淡水微咸水与周边(侧向和垂向)咸水的水力联系及水质利用条件,设定各井内水位和水质阈值,实现浅部薄层淡水的绿色安全开采,提高地下水资源开采潜力。
Green development method for superficial thin-layer fresh water brackish water
一种浅部薄层淡水微咸水绿色开发方法
LIU PENGFEI (author) / CHOI SANG-JIN (author) / TIAN YANLIANG (author) / LIU XUEQUAN (author) / ZHANG GUANGHUI (author) / NIE ZHENLONG (author) / ZHU PUCHENG (author)
2023-05-23
Patent
Electronic Resource
Chinese
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