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Artificial intelligence device for multi-dimensional fidelity collection of layered water samples in high dam deep reservoirs and water quality monitoring

A water quality monitoring and artificial intelligence technology, applied in sampling devices, testing water, material inspection products, etc., can solve the problem of immature sampling devices, lack of mature technologies and products, and difficulty in purchasing stratified water sample collection and synchronous monitoring instruments and other problems, to achieve the effect of high-precision stratified sampling and synchronous monitoring

Active Publication Date: 2020-11-03
NANJING HYDRAULIC RES INST
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AI Technical Summary

Problems solved by technology

However, traditional methods are difficult to effectively solve the bottleneck of undisturbed or slightly disturbed collection and monitoring of stratified water samples in complex water bodies, especially in-situ acquisition of stratified water bodies and supersaturated water samples at sediment-water interfaces in complex environments of deep and large reservoirs. Multi-dimensional fidelity and synchronous monitoring of key physical and chemical parameters and other problems
[0003] At present, there are many devices for collecting stratified water samples, but for the collection of stratified water samples under complex conditions in high dams and deep reservoirs, especially for the in-situ and undisturbed acquisition of supersaturated water samples at the sediment-water interface, There are almost no mature technologies and products, and it is even more difficult to purchase stratified water sample collection and simultaneous monitoring instruments for special research purposes
At present, the traditional methods commonly used generally have the following deficiencies: (1) Disturb the water body and destroy the in-situ environmental conditions
At present, the sampling devices for collecting the complete profile stratified water body of deep and large reservoirs, the supersaturated water samples of the sediment-water interface and the simultaneous monitoring of key parameters are still immature

Method used

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  • Artificial intelligence device for multi-dimensional fidelity collection of layered water samples in high dam deep reservoirs and water quality monitoring
  • Artificial intelligence device for multi-dimensional fidelity collection of layered water samples in high dam deep reservoirs and water quality monitoring

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Embodiment

[0036] Such as Figure 1-2 As shown, a high dam deep reservoir layered water sample multi-dimensional fidelity collection and water quality monitoring integrated intelligent system device, including a sampler main cabin 1, the upper part of the sampler main cabin 1 is provided with a static pressure gas cylinder 2, There are usually two static pressure gas cylinders 2 . An array water collector 3 , a posture balance sensor 4 and an illumination camera system 5 are arranged at the lower part of the main cabin body 1 of the sampler.

[0037] The array water collector 3 is a multi-channel array water collector, which is generally arranged in the middle of the bottom of the main cabin 1 of the sampler, and is controlled by the main control device 6 inside the main cabin 1 of the sampler. The array water collector 3 It is composed of the power device 3-1 at the top, the pressure sensing device 3-2 in the middle and the surrounding sampling tubes 3-3, wherein the volume of each sin...

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Abstract

The invention discloses an artificial intelligence apparatus for multi-dimensional fidelity collection of stratified water samples in a high dam and a deep reservoir and water quality monitoring. Theartificial intelligence apparatus includes a sampler main cabin body. A static pressure gas cylinder is disposed on the upper part of the sampler main cabin body, and an array water sampler, a posturebalance sensor, and an illumination camera system are disposed on the lower part of the sampler main cabin body. Propulsion apparatuses are disposed at the front and rear ends of the sampler main cabin body, and balance apparatuses are disposed on both sides of the sampler main cabin body. The integrated intelligence system apparatus in the invention is an artificial intelligence sampling apparatus for integrating functions such as high-definition underwater topography observation, undisturbed stratified collection, vertical stratified accurate sampling for a water body, and synchronous monitoring of key physical and chemical parameters, and the artificial intelligence apparatus has advantages such as no disturbance, high precision, high fidelity, high efficiency, powerful matching and low risk, and provides powerful technical support for further research on an environmental ecological effect of a large-scale water conservancy project.

Description

technical field [0001] The invention belongs to an integrated artificial intelligence acquisition device for in-situ collection and synchronous monitoring of layered water samples in high dams and deep reservoirs, and in particular to an integrated intelligence for in-situ fidelity collection and monitoring of layered water samples with automatic control and artificial intelligence system device. Background technique [0002] In hydraulics and water conservancy engineering, geosciences, environmental science and ecology and other disciplines, the collection of water samples is an important step in the study of the structure and function of water ecosystems, and has become one of the important issues in current water science research. Obtaining water samples of the research water body with bit fidelity has become a technical bottleneck problem in the study of hydrological processes, material cycle transformation, especially the complex material geochemical processes that occu...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N1/16G01N33/18
CPCG01N1/16G01N33/18
Inventor 陈求稳余居华张建云余文勇施文卿陈诚林育青胡柳明王丽
Owner NANJING HYDRAULIC RES INST
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