Rod-type hyperspectral multi-parameter water environment monitoring device and method

Abstract

The invention relates to a water environment monitoring device, in particular to a rod-type hyperspectral multi-parameter water environment monitoring device and method, and solves the technical problem that non-contact real-time multi-parameter monitoring and long-distance high-resolution transmission in a field water environment are difficult to realize by a traditional water environment monitoring technology. The rod-type hyperspectral multi-parameter water environment monitoring device comprises a supporting rod, a support, a lamp body, a control box, a power supply unit and a detection unit. The support is arranged on the supporting rod, the lamp body is arranged in front of the support, and the control box is arranged on the supporting rod and controls the lamp body and the detection unit. The power supply unit comprises a solar panel and a storage battery; the solar panel is arranged on the top of the supporting rod and used for charging the storage battery and supplying power to the control box, the lamp body and the detection unit; and the storage battery is arranged at the bottom of the supporting rod and supplies power to the control box, the lamp body and the detection unit when not powered by the solar panel. The detection unit comprises a visible light dome camera, a radar flowmeter and a spectrometer; and the visible light dome camera, the radar flowmeter and the spectrometer are sequentially arranged in the support from left to right.

Description

technical field [0001] The invention relates to a water environment monitoring device, in particular to a rod-type hyperspectral multi-parameter water environment monitoring device and method. Background technique [0002] As we all know, the water area on the earth has reached more than 70% coverage, while fresh water resources only account for 2.7% of it. In recent years, the problem of water resource pollution has attracted more and more attention. With the development of industrialization, the water quality pollution of rivers, rivers, lakes, and seas has become more and more serious. Water quality monitoring is an important guarantee for water governance and is indispensable for water governance. Environmental protection measures are also an important way for sustainable development. [0003] Water quality monitoring technology is a key technology to prevent water pollution. With the development of science and technology, water quality monitoring technology is becomin...

AI Technical Summary

Problems solved by technology

With the development of science and technology, water quality monitoring technology is becoming more and more mature. At present, the main methods include satellite remote sensing inversion, handheld portable instruments and cabinet measurement, etc.; traditional satellite remote sensing technology has low temporal and spatial resolution and requires atmospheric correction; handheld measurement requires a lot of Manual means, poor real-time performance, time-consuming and labor-intensive; cabinet machine measurement needs long-term contact with water, the instrument is vulnerable to corrosion, and often requires maintenance

[0004] To sum up, the current traditional water quality monitoring technology is difficult to realize multi-parameter monitoring and long-distance real-time transmission of water environment monitoring in field work conditions.

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