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Online marine distributed temperature, salinity and depth flow dynamic real-time monitoring system

A real-time monitoring system and distributed technology, applied in the field of micro-sensing, can solve the problems of difficult widespread distribution, high price, time-consuming, etc., and achieve the effects of reducing cost, overcoming corrosion, and improving detection accuracy

Inactive Publication Date: 2012-10-10
CENT FOR HYDROGEOLOGY & ENVIRONMENTAL GEOLOGY CGS
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Problems solved by technology

[0002] The current monitoring methods for ocean temperature, salinity, depth, current velocity, and flow direction generally use manual detection, which is time-consuming, labor-intensive, and labor-intensive, and the monitoring accuracy is low. At the same time, a nearby tide gauge station is required for tide level correction
The second is to use a wired marine hydrodynamic environment dynamic monitoring system, which is expensive and difficult to deploy widely, and the electrical sensors are easily damaged by seawater corrosion and cause permanent failure if they are placed in seawater for a long time.

Method used

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  • Online marine distributed temperature, salinity and depth flow dynamic real-time monitoring system

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Embodiment Construction

[0010] An online ocean distributed temperature-salinity deep current dynamic real-time monitoring system, the computer is connected to the data exchange, and the data exchange is respectively connected to the respective data acquisition and controllers of temperature, salinity, depth, flow velocity and flow direction; temperature, salinity, depth The respective data acquisition and controllers of temperature, salinity, depth, flow velocity and flow direction are respectively connected to the respective bus transponders of temperature, salinity, depth, flow velocity and flow direction; the respective bus transponders of temperature, salinity, depth, flow velocity and flow direction are connected to the Connect multiple identical temperature sensors with IP addresses, temperature sensors with IP addresses, salinity sensors with IP addresses, liquid level sensors with IP addresses, flow rate sensors with IP addresses and temperature sensors with IP addresses sensor.

[0011] The ...

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Abstract

The invention discloses an online marine distributed temperature, salinity and depth flow dynamic real-time monitoring system. A computer is connected with a data exchanger; the data exchanger is respectively connected with respective data acquisition and controllers for temperature, salinity, depth, flow velocity and flow direction, and the respective data acquisition and controllers for temperature, salinity, depth, flow velocity and flow direction are respectively connected with respective bus forwarding devices for temperature, salinity, depth, flow velocity and flow direction; and the respective bus forwarding devices are respectively connected with a plurality of identical sensors with internet protocol (IP) addresses in different monitoring projects on the connecting line of the same monitoring project. According to the system, the corrosion of seawater on the sensors is avoided, and the construction cost is reduced; and meanwhile, the detection precision is improved, the data signals can be transmitted to a land monitoring station of dozens of kilometers away, and the requirement of the marine hydrological engineering environmental geological detection is met.

Description

technical field [0001] The invention belongs to the field of micro-sensing technology, and in particular relates to an online real-time ocean temperature-salinity deep current monitoring system. Background technique [0002] The current monitoring methods for ocean temperature, salinity, depth, current velocity, and flow direction generally use manual detection, which is time-consuming, labor-intensive, manpower-intensive, and the monitoring accuracy is low. At the same time, a nearby tide gauge station is required for tide level correction. The second is to use a wired marine hydrodynamic environment dynamic monitoring system, which is expensive and difficult to deploy widely, and the electrical sensors are easily damaged by seawater corrosion and cause permanent failure if they are placed in seawater for a long time. Invention content: [0003] The invention provides an online real-time ocean temperature-salinity deep current monitoring system. It not only overcomes the...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01D21/02
Inventor 孙晓明张青杨齐青林黎方成柳富田孟宪玮史彦新
Owner CENT FOR HYDROGEOLOGY & ENVIRONMENTAL GEOLOGY CGS
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