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Journal of Environmental Biology

pISSN: 0254-8704 ; eISSN: 2394-0379 ; CODEN: JEBIDP

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    Abstract - Issue Sep 2016, 37 (5)                                     Back


nstantaneous and historical temperature effects on a-pinene

Study on temporary resolution for offshore marine oil spill emergencies based on remote sensing system

 

Lan Guo-Xin*, Dong Kai-Xin and Lin Jun-Jie

College of Environmental and Chemistry Engineering, Chongqing Three Gorges University, Wanzhou - 404 100, PRChina

*Corresponding Author E-mail: feman7122@163.com

 

Publication Data

Paper received:

12 October 2015

 

Revised received:

27 April 2016

 

Re-revised received:

05 May 2016

 

Accepted:

23 June 2016

 

Abstract

Time is particularly critical for an oil spill occurring in the ocean as wind and current can rapidly spread the oil over a large area in a short time. Using the features of sensor surveillance system and mathematical trajectory models, the cooperation of surveillance and trajectory under oil spill emergency response is presented in this paper. Based on integration of equation simulating an oil spill trajectory, the method for remote-sensing application time (Te) has been described, and optimization of processing time described in the application time equation has been proposed. This contribution, which is integrated with remote-sensing and mathematical models, is expected to be a powerful tool for real-time contingency planning in the Dalian Xingang oil spill. According to these findings, the method allowed spills emergency alerts to make the best decision for choosing remote-sensing data, considering effective temporary resolution.   

 

 

 Key words

Dalian Xingang oil spill, Remote sensing system, Temporary resolution

 

 

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