Monitoring and Management of Source Water Pollution Based on a New Bio-Optoelectronic System in Jinan, China

Xiao Guang Wang; Zong Ming Ren; Zhong Yu Ma

doi:10.4028/www.scientific.net/AMM.541-542.1350

Paper Titles

Necessary and Sufficient Condition on Controllability and Reachability of Fractional-Order Linear Switched System
p.1319

The Additional Side Force on the Force Transducer in the Combinatorial Load Cell
p.1327

Numerical Simulation Research of Velocity and Temperature Fields in High Temperature Flow of Liquid Lend-Bismuth Eutectic
p.1333

System Design of Greenhouse Temperature and Humidity Monitoring and Alarming
p.1338

Monitoring and Management of Source Water Pollution Based on a New Bio-Optoelectronic System in Jinan, China
p.1350

Aluminium Self-Piercing Rivet's Failure: Testing and Numerical Analyses
p.1355

The Measurement Method of Echo Highlights in Low Frequency
p.1360

Three-Dimensional Numerical Simulation of the Mechanism of Armour-Piercing Bullet Attacking on the Target
p.1365

Temperature Drifts Compensation of Strain-Temperature Method for the Measurement of Continuous Welded Rail Temperature Force
p.1370

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 541-542Monitoring and Management of Source Water...

Monitoring and Management of Source Water Pollution Based on a New Bio-Optoelectronic System in Jinan, China

Abstract:

A new bio-optoelectronic system, which included the behavior (aquatic organism) monitoring system and the water physiochemical factor monitoring system, was developed for the purpose of the management of accidental pollution events in water resource in Jinan, China. The system included a monitoring center and three monitoring stations. Communication between the monitoring stations and the monitoring center was mainly by the General Packet Radio Service network transmission complemented by a dial-up connection for use when this service was unavailable. The results suggested that once an accidental pollution occurred, the system would make a comprehensive evaluation based on the Self-Organising Map analysis on the monitoring data and some decision would be made based on the Emergency Management of Accidental Pollution. As a result, the new bio-optoelectronic system provided an effective approach on the management of accidental pollution events in drinking water supply.

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Periodical:

Applied Mechanics and Materials (Volumes 541-542)

Pages:

1350-1354

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.541-542.1350

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Online since:

March 2014

Authors:

Xiao Guang Wang*, Zong Ming Ren, Zhong Yu Ma

Keywords:

Accidental Pollution Events, Bio-Optoelectronic System, Management, Monitoring

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