Numerical analysis of groundwater flow in a bore hole with a cylindrical obstacle: Basic relationship for measurement of seepage flow velocity

Satoshi Akibayash; Kyuro Sasaki; Qing Wei; Takafumi Murakami

Numerical analysis of groundwater flow in a bore hole with a cylindrical obstacle: Basic relationship for measurement of seepage flow velocity

Satoshi Akibayash, Kyuro Sasaki, Qing Wei, Takafumi Murakami

資源システム工学

研究成果: 書籍/レポートタイプへの寄稿 › 会議への寄与

抄録

This paper presents a numerical analysis and visualization experiments of a steadystate two-dimensional groundwater flow passing through a borehole with a cylindrical obstacle at its center.In the numerical analysis, Darcy's Law was applied to simulate the flow in porous media, while Navier-Stokes Equations were applied to simulate the flow in the borehole. These equations were discretised with the finite difference method and were solved using the alternative direction implicit method under various flow conditions.The results of numerical analysis were validated with velocity and streamline measurements in laboratory experiments. Effects of Reynolds Number and obstacle sizes on the flow in the borehole were observed in the velocity and streamline profiles. The applicable ranges of the Stokes' Approximation in the Navier-Stokes Equation were also investigated through the numerical analysis.

本文言語	英語
ホスト出版物のタイトル	26th International Symposium on Application of Computers and Operations Research in the Mineral Industry (APCOM) (State College, Pennsylvania, USA)
編集者	R.V. Ramani
出版社	Society for Mining, Metallurgy, and Exploration, Inc.
ページ	203-208
ページ数	6
ISBN（印刷版）	0873351371
出版ステータス	出版済み - 9月 1996

!!!All Science Journal Classification (ASJC) codes

地球惑星科学（全般）
流体および伝熱

フィンガープリント

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引用スタイル

Akibayash, S., Sasaki, K., Wei, Q., & Murakami, T. (1996). Numerical analysis of groundwater flow in a bore hole with a cylindrical obstacle: Basic relationship for measurement of seepage flow velocity. In R. V. Ramani (Ed.), 26th International Symposium on Application of Computers and Operations Research in the Mineral Industry (APCOM) (State College, Pennsylvania, USA) (pp. 203-208). Society for Mining, Metallurgy, and Exploration, Inc..

Numerical analysis of groundwater flow in a bore hole with a cylindrical obstacle: Basic relationship for measurement of seepage flow velocity. / Akibayash, Satoshi; Sasaki, Kyuro; Wei, Qing その他.
26th International Symposium on Application of Computers and Operations Research in the Mineral Industry (APCOM) (State College, Pennsylvania, USA). ed. / R.V. Ramani. Society for Mining, Metallurgy, and Exploration, Inc., 1996. p. 203-208.

研究成果: 書籍/レポートタイプへの寄稿 › 会議への寄与

Akibayash, S, Sasaki, K, Wei, Q & Murakami, T 1996, Numerical analysis of groundwater flow in a bore hole with a cylindrical obstacle: Basic relationship for measurement of seepage flow velocity. in RV Ramani (ed.), 26th International Symposium on Application of Computers and Operations Research in the Mineral Industry (APCOM) (State College, Pennsylvania, USA). Society for Mining, Metallurgy, and Exploration, Inc., pp. 203-208.

Akibayash S, Sasaki K, Wei Q, Murakami T. Numerical analysis of groundwater flow in a bore hole with a cylindrical obstacle: Basic relationship for measurement of seepage flow velocity. In Ramani RV, editor, 26th International Symposium on Application of Computers and Operations Research in the Mineral Industry (APCOM) (State College, Pennsylvania, USA). Society for Mining, Metallurgy, and Exploration, Inc. 1996. p. 203-208

Akibayash, Satoshi ; Sasaki, Kyuro ; Wei, Qing その他. / Numerical analysis of groundwater flow in a bore hole with a cylindrical obstacle: Basic relationship for measurement of seepage flow velocity. 26th International Symposium on Application of Computers and Operations Research in the Mineral Industry (APCOM) (State College, Pennsylvania, USA). editor / R.V. Ramani. Society for Mining, Metallurgy, and Exploration, Inc., 1996. pp. 203-208

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abstract = "This paper presents a numerical analysis and visualization experiments of a steadystate two-dimensional groundwater flow passing through a borehole with a cylindrical obstacle at its center.In the numerical analysis, Darcy's Law was applied to simulate the flow in porous media, while Navier-Stokes Equations were applied to simulate the flow in the borehole. These equations were discretised with the finite difference method and were solved using the alternative direction implicit method under various flow conditions.The results of numerical analysis were validated with velocity and streamline measurements in laboratory experiments. Effects of Reynolds Number and obstacle sizes on the flow in the borehole were observed in the velocity and streamline profiles. The applicable ranges of the Stokes' Approximation in the Navier-Stokes Equation were also investigated through the numerical analysis.",

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N2 - This paper presents a numerical analysis and visualization experiments of a steadystate two-dimensional groundwater flow passing through a borehole with a cylindrical obstacle at its center.In the numerical analysis, Darcy's Law was applied to simulate the flow in porous media, while Navier-Stokes Equations were applied to simulate the flow in the borehole. These equations were discretised with the finite difference method and were solved using the alternative direction implicit method under various flow conditions.The results of numerical analysis were validated with velocity and streamline measurements in laboratory experiments. Effects of Reynolds Number and obstacle sizes on the flow in the borehole were observed in the velocity and streamline profiles. The applicable ranges of the Stokes' Approximation in the Navier-Stokes Equation were also investigated through the numerical analysis.

AB - This paper presents a numerical analysis and visualization experiments of a steadystate two-dimensional groundwater flow passing through a borehole with a cylindrical obstacle at its center.In the numerical analysis, Darcy's Law was applied to simulate the flow in porous media, while Navier-Stokes Equations were applied to simulate the flow in the borehole. These equations were discretised with the finite difference method and were solved using the alternative direction implicit method under various flow conditions.The results of numerical analysis were validated with velocity and streamline measurements in laboratory experiments. Effects of Reynolds Number and obstacle sizes on the flow in the borehole were observed in the velocity and streamline profiles. The applicable ranges of the Stokes' Approximation in the Navier-Stokes Equation were also investigated through the numerical analysis.

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BT - 26th International Symposium on Application of Computers and Operations Research in the Mineral Industry (APCOM) (State College, Pennsylvania, USA)

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PB - Society for Mining, Metallurgy, and Exploration, Inc.

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