Multiparameter wireless real-time monitoring self-powered fluorescent tracer system and method

Abstract

The invention discloses a multiparameter wireless real-time monitoring self-powered fluorescent tracer system and a method. The system includes a multiparameter test probe used for collecting data atleast including a water level of water body and the concentration of fluorescein in the water body and transmitting the collected data to a control unit, and an intelligent waterpower direct current charging unit including a rotating impeller and a generator which are connected with each other, wherein the rotating impeller is driven by water flows to rotate and the generator can convert the mechanical energy generated by the water flows into electric energy. The control unit includes a data record module, a cellular data communication module and a remote instruction control module. A remote terminal carries out fitting correction calculation on dynamic water body flow by using the water level of the water body and the flow velocity of the water flows. According to the invention, the flowvelocity, water level, turbidity and conductivity of the water body and the concentration of fluorescein in the water body can be measured for a long time, and test data can be remotely viewed on a regular or real-time basis by using the terminal device. Meanwhile, real-time flow parameters can be corrected, thereby obtaining the total recovery quality of a measurement section of a river channel in set time.

Description

technical field [0001] The present invention relates to technical fields such as hydrogeology, hydrology and water resources engineering, groundwater and scientific engineering, environmental science and engineering, water resources and environmental engineering, engineering geology, etc., especially relates to a multi-parameter wireless real-time monitoring self-powered fluorescent tracer system and method. Background technique [0002] At present, the quantitative fluorescent tracer experiment method is widely used in hydrogeology, karst geology, hydrology and water resources engineering, groundwater science and engineering, environmental science and engineering, water resources and environmental engineering, engineering geology and other fields. It is one of the important tools for studying groundwater migration, pollution sources, reservoir leakage, and karst pipeline morphology. [0003] Especially in the field of karst research, the total area of ​​karst areas in my c...

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Problems solved by technology

[0003] Especially in the field of karst research, the total area of ​​karst areas in my country is about 3.44 million square kilometers. In addition to the superposition of climate and tectonic effects, it is very easy to form karst landforms such as underground rivers, pipelines, sinkholes, and karst trenches. Underground rivers and pipelines are not easy to be found, and there are huge safety hazards in underground construction such as tunnel excavation and limestone mining, which may cause serious property losses and heavy casualties

[0004] Quantitative fluorescent tracer experiments provide an effective means for studying the characteristics of karst pipeline flow and pipeline structure. The existing field fluorescent tracer systems have short battery life, single parameter collection types, inconvenient on-site reading data, and unobjective calculation results. and many other deficiencies and defects

In addition, traditional fluorescent tracer systems cannot capture water flow

[0005] To sum up, the existing field fluorescent tracer system still lacks an effective solution to the problem of how to realize multi-parameter acquisition and its own continuous power supply.

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