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W4383373628 startingPage "B297" @default.
W4383373628 abstract "Accurate predictions of earth’s interior thermal conductivity are essential for interpreting the mechanisms involved in geothermal systems and delineating geothermal resource targets. Existing thermal conductivity prediction methods, which typically involve measurements of rock samples and predictions based on geophysical well logging, cannot accurately predict regional thermal conductivity distributions. We develop a 3D thermal conductivity prediction based on temperature field estimation. First, the finite-element method is used for temperature forward modeling. Subsequently, the inexact Gauss-Newton method is implemented in the prediction algorithm. Synthetic studies indicate that the method can recover the true model well. The subsurface temperature distribution of the Xiong’an New Area is predicted using the coefficient correction method of the optimal temperature. Next, we obtain the 3D distribution of thermal conductivity of deep formation in the Xiong’an New Area with the predicted temperature field. The distribution of terrestrial heat flow also is estimated. In addition, the law of thermal accumulation of strata at different depths is analyzed, and the internal relation among resistivity, temperature, and thermal conductivity is studied. Thus, the 3D thermal conductivity prediction method provides the theoretical basis for interpreting mechanisms for the origin of geothermal systems and heat accumulation patterns. It could have significant utility for the analysis of geothermal fields and the sustainable development and use of geothermal resources." @default.
W4383373628 created "2023-07-07" @default.
W4383373628 creator A5004788238 @default.
W4383373628 creator A5047838527 @default.
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W4383373628 date "2023-09-04" @default.
W4383373628 modified "2023-10-17" @default.
W4383373628 title "A 3D thermal conductivity prediction method for deep strata based on temperature field estimation" @default.
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W4383373628 cites W2008201071 @default.
W4383373628 cites W2014213805 @default.
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W4383373628 cites W2555745610 @default.
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W4383373628 cites W2779747967 @default.
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W4383373628 doi "https://doi.org/10.1190/geo2022-0713.1" @default.
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