Sea water temperature retrieval model for Daya Bay based on HJ-1B thermal infrared remote sensing data and its application

doi:10.6046/gtzyyg.2014.01.23

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Abstract

High spatial and temporal resolution of HJ-1B IRS4 single channel infrared data can meet the need of the sea water temperature in Daya Bay where strong variability of the temperature is obvious in time and space. Based on the common HJ-1B IRS4 sea surface temperature retrieval algorithms and numerical differential methods, the authors carried out sensitivity analysis of the influence of the temperature retrieval error, which included the total water content in the atmosphere, the observation angle and the emissivity. Combined with the actual situation of Daya Bay nuclear power plants and based on the single window algorithm for temperature retrieval model, the authors employed the HJ-1B IRS4 thermal infrared data of December 18, 2011 and December 22, 2011 around Daya Bay,the corresponding CE312 real measured infrared radiation temperature data and meteorological observation data and, through the least square method and the linear regression method, revised parameters a and b of the retrieval model, with the corresponding amendatory value being 1 163.4 and -4.013 4 respectively. Two years' HJ-1B IRS4 single channel infrared data of 2010 and 2011 were utilized to monitor thermal discharge in Daya Bay nuclear power plants. The results provide a basis for further dynamic monitoring application of thermal discharge in Daya Bay nuclear power plants by using HJ-1B IRS4 thermal infrared data.

Keywords short wave infrared high temperature target normal temperature object feasibility analysis

TP79

Issue Date: 08 January 2014

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	Articles by authors

	YU Yifan
	PAN Jun
	XING Lixin
	JIANG Lijun
	MENG Tao
	HAN Xiaojing
	ZHOU Caicai

Cite this article:

YU Yifan,PAN Jun,XING Lixin, et al. Sea water temperature retrieval model for Daya Bay based on HJ-1B thermal infrared remote sensing data and its application[J]. REMOTE SENSING FOR LAND & RESOURCES, 2014, 26(1): 132-138.

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https://www.gtzyyg.com/EN/10.6046/gtzyyg.2014.01.23 OR https://www.gtzyyg.com/EN/Y2014/V26/I1/132

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