Numerical Simulation of a Single-Phase Flow Through Fractures with Permeable, Porous and Non-Ductile Walls

This paper attempts to study flows within fractures through a set of numerical simulations. In addition, a special care is given to hydraulic features and characteristics of fractures. The research is performed through the application of calculative fluid dynamics and a finite volume discrete schema...

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Main Authors: N. Pour Mahmoud, A. Zabihi
Format: Article
Language:English
Published: D. G. Pylarinos 2017-10-01
Series:Engineering, Technology & Applied Science Research
Subjects:
Online Access:https://etasr.com/index.php/ETASR/article/view/1448
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spelling doaj-94b17742b4d142b68e9c4716090a18f32020-12-02T18:06:07ZengD. G. PylarinosEngineering, Technology & Applied Science Research2241-44871792-80362017-10-0175Numerical Simulation of a Single-Phase Flow Through Fractures with Permeable, Porous and Non-Ductile WallsN. Pour Mahmoud0A. Zabihi1Mechanical Engineering Department, Urmia University, Urmia, IranMechanical Engineering Department, Urmia University, Urmia, IranThis paper attempts to study flows within fractures through a set of numerical simulations. In addition, a special care is given to hydraulic features and characteristics of fractures. The research is performed through the application of calculative fluid dynamics and a finite volume discrete schema. The investigated flows are laminar, single-phase and stable flows of water and air through fractures with penetrable walls. The selected fracture geometry is inspired from the tomographic scan of a stone fracture. Water and air are modeled in fractures with permeable walls and different permeability levels. It has been observed that in case of permeable matrixes, the friction coefficient is lower compared to impermeable matrixes. In fact permeability reduced friction. In addition, highest pressure drops were observed in areas with smaller fracture diaphragms. Nonetheless, the surrounding area of the fracture is analyzed with the consideration of Darcy's rule. https://etasr.com/index.php/ETASR/article/view/1448fracturepressure gradientporous mediasingle-phase flow numerical simulationDarcy's rulelaminar flow
collection DOAJ
language English
format Article
sources DOAJ
author N. Pour Mahmoud
A. Zabihi
spellingShingle N. Pour Mahmoud
A. Zabihi
Numerical Simulation of a Single-Phase Flow Through Fractures with Permeable, Porous and Non-Ductile Walls
Engineering, Technology & Applied Science Research
fracture
pressure gradient
porous media
single-phase flow numerical simulation
Darcy's rule
laminar flow
author_facet N. Pour Mahmoud
A. Zabihi
author_sort N. Pour Mahmoud
title Numerical Simulation of a Single-Phase Flow Through Fractures with Permeable, Porous and Non-Ductile Walls
title_short Numerical Simulation of a Single-Phase Flow Through Fractures with Permeable, Porous and Non-Ductile Walls
title_full Numerical Simulation of a Single-Phase Flow Through Fractures with Permeable, Porous and Non-Ductile Walls
title_fullStr Numerical Simulation of a Single-Phase Flow Through Fractures with Permeable, Porous and Non-Ductile Walls
title_full_unstemmed Numerical Simulation of a Single-Phase Flow Through Fractures with Permeable, Porous and Non-Ductile Walls
title_sort numerical simulation of a single-phase flow through fractures with permeable, porous and non-ductile walls
publisher D. G. Pylarinos
series Engineering, Technology & Applied Science Research
issn 2241-4487
1792-8036
publishDate 2017-10-01
description This paper attempts to study flows within fractures through a set of numerical simulations. In addition, a special care is given to hydraulic features and characteristics of fractures. The research is performed through the application of calculative fluid dynamics and a finite volume discrete schema. The investigated flows are laminar, single-phase and stable flows of water and air through fractures with penetrable walls. The selected fracture geometry is inspired from the tomographic scan of a stone fracture. Water and air are modeled in fractures with permeable walls and different permeability levels. It has been observed that in case of permeable matrixes, the friction coefficient is lower compared to impermeable matrixes. In fact permeability reduced friction. In addition, highest pressure drops were observed in areas with smaller fracture diaphragms. Nonetheless, the surrounding area of the fracture is analyzed with the consideration of Darcy's rule.
topic fracture
pressure gradient
porous media
single-phase flow numerical simulation
Darcy's rule
laminar flow
url https://etasr.com/index.php/ETASR/article/view/1448
work_keys_str_mv AT npourmahmoud numericalsimulationofasinglephaseflowthroughfractureswithpermeableporousandnonductilewalls
AT azabihi numericalsimulationofasinglephaseflowthroughfractureswithpermeableporousandnonductilewalls
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