Efficient Numerical Method Based on Double Porosity Model to Analyze Heat and Fluid Flows in Fractured Rock Formations
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概要
- 論文の詳細を見る
An efficient numerical method based on the double porosity model is proposed in order to analyze heat and fluid flows in fractured rock formations. The specific problem to which the present numerical method is applied assumes a single vertical or horizontal fracture that drains heat from neighboring blocks of homogeneous and isotropic impermeable rock. The outlet temperature history is monitored to evaluate the amount of heat extraction from the rock. The numerical results are favorably compared with the available analytical data. The present method is proven to be ten times more efficient than a conventional algorithm that requires a fine grid network along the fracture. The method can be extended to three-dimensional space or complex fracture networks.
- 一般社団法人日本機械学会の論文
- 1992-08-15
著者
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HAYASHI Kazuo
Institute of Fluid Science, Tohoku University
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Kimura Shigeo
Government Industrial Research Institute
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MASUDA Yoshio
Government Industrial Research Institute
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Hayashi Kazuo
Institute For Fluid Science Tohoku University
関連論文
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- Analysis of Stress-induced Wellbore Breakouts in an Arbitrarily Oriented Tectonic Stress Field
- BEM Analysis of a Cylindrical Three-Point Bend Specimen with a Chevron Crack for Fracture Toughness Test of Rock
- Efficient Numerical Method Based on Double Porosity Model to Analyze Heat and Fluid Flows in Fractured Rock Formations
- Detection of formation boundaries and permeable fractures based on frequency-domain Stoneley wave logs
- BEM Calibration of the Short-Rod Specimen for Fracture Toughness Test of Rock