GEOTHERMAL RESOURCE PROGNOSIS BASED ON REMOTE SENSINGTECHNOLOGY IN CHANGBAISHAN VOLCANIC AREA

doi:10.6046/gtzyyg.2008.01.15

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Abstract

As an important ecotype resource, geothermal resource is extremely useful and has good market potential.

With the temperature field of land surface as the object, thermal infrared remote sensing has accumulated abundant

successful experience in geothermal resource survey. In previous geothermal resource survey, land surface

temperature was frequently replaced by thermal infrared spectral radiance or brightness temperature to interpret the

geothermal abnormal area. This replacement, however, is unreasonable in fact. This paper has forecasted favorable

geothermal areas by retrieving land surface temperature with the temperature and emissivity separation algorithm and

interpreting geological structure based on ASTER data as well as analyzing hot water activity and deep gas

characteristics of the earth in Changbaishan volcanic area. The results show that the Tianchi section of Liudaogou-

ChangbaishanTianchi-Zengfenshan fault and the Changbai-Julong section of Changbaishan volcanic ring fault make up

favorable areas for geothermal resource exploration and volcanic monitoring.

Keywords Imaging Spectrometer Image analysis

TP79:P314.3　

Issue Date: 13 July 2009

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	Shu Ning

Cite this article:

Shu Ning. GEOTHERMAL RESOURCE PROGNOSIS BASED ON REMOTE SENSINGTECHNOLOGY IN CHANGBAISHAN VOLCANIC AREA[J]. REMOTE SENSING FOR LAND & RESOURCES, 2008, 20(1): 68-71.

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https://www.gtzyyg.com/EN/10.6046/gtzyyg.2008.01.15 OR https://www.gtzyyg.com/EN/Y2008/V20/I1/68

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