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Coupled thermo-hydro-mechanical proc...

Zhang, Fengshou.

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Coupled thermo-hydro-mechanical processes in fractured rock masses = discrete element modeling and engineering applications /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Coupled thermo-hydro-mechanical processes in fractured rock masses/ by Fengshou Zhang, Branko Damjanac, Jason Furtney.
Reminder of title:	discrete element modeling and engineering applications /
Author:	Zhang, Fengshou.
other author:	Damjanac, Branko.
Published:	Cham :Springer International Publishing : : 2023.,
Description:	xix, 306 p. :ill., digital ;24 cm.
[NT 15003449]:	Chapter 1: Introduction to the Discrete Element Method (DEM) and Related Fluid Mechanics Concepts -- Chapter 2: Discrete Element Modeling of Hydraulic Fracturing -- Chapter 3: DEM Coupled with Computational Fluid Dynamics (CFD) -- Chapter 4: DEM Coupled with Dynamic Fluid Mesh (DFM) -- Chapter 5: DEM Coupled with Lattice-Boltzmann Method (LBM) -- Chapter 6: Hydraulic Stimulation of Naturally Fractured Reservoirs -- Chapter 7: Models of Stimulation and Production from Enhanced Geothermal Systems -- Chapter 8: Hydraulic Fracturing Induced Fault Reactivation -- Chapter 9: 3D Lattice Modeling of Hydraulic Fracturing in Naturally Fractured Reservoirs -- Chapter 10: Heat Advection and Forced Convection in a Lattice Code -- Chapter 11: Near Wellbore HF Propagation for Different Perforation Models -- Chapter 12: Design of Extreme Limited Entry Perforation.
Contained By:	Springer Nature eBook
Subject:	Geotechnical engineering - Mathematical models. -
Online resource:	https://doi.org/10.1007/978-3-031-25787-2
ISBN:	9783031257872

Coupled thermo-hydro-mechanical processes in fractured rock masses = discrete element modeling and engineering applications /
Zhang, Fengshou.

Coupled thermo-hydro-mechanical processes in fractured rock massesdiscrete element modeling and engineering applications /[electronic resource] :by Fengshou Zhang, Branko Damjanac, Jason Furtney. - Cham :Springer International Publishing :2023. - xix, 306 p. :ill., digital ;24 cm.

Chapter 1: Introduction to the Discrete Element Method (DEM) and Related Fluid Mechanics Concepts -- Chapter 2: Discrete Element Modeling of Hydraulic Fracturing -- Chapter 3: DEM Coupled with Computational Fluid Dynamics (CFD) -- Chapter 4: DEM Coupled with Dynamic Fluid Mesh (DFM) -- Chapter 5: DEM Coupled with Lattice-Boltzmann Method (LBM) -- Chapter 6: Hydraulic Stimulation of Naturally Fractured Reservoirs -- Chapter 7: Models of Stimulation and Production from Enhanced Geothermal Systems -- Chapter 8: Hydraulic Fracturing Induced Fault Reactivation -- Chapter 9: 3D Lattice Modeling of Hydraulic Fracturing in Naturally Fractured Reservoirs -- Chapter 10: Heat Advection and Forced Convection in a Lattice Code -- Chapter 11: Near Wellbore HF Propagation for Different Perforation Models -- Chapter 12: Design of Extreme Limited Entry Perforation.

The subject of thermo-hydro-mechanical coupled processes in fractured rock masses has close relevance to energy-related deep earth engineering activities, such as enhanced geothermal systems, geological disposal of radioactive waste, sequestration of CO2, long-term disposal of waste water and recovery of hydrocarbons from unconventional reservoirs. Despite great efforts by engineers and researchers, comprehensive understanding of the thermo-hydro-mechanical coupled processes in fractured rock mass remains a great challenge. The discrete element method (DEM), originally developed by Dr. Peter Cundall, has become widely used for the modeling of a rock mass, including its deformation, damage, fracturing and stability. DEM modeling of the coupled thermo-hydro-mechanical processes in fractured rock masses can provide some unique insights, to say the least, for better understanding of those complex issues. The authors of this book have participated in various projects involving DEM modeling of coupled thermo-hydro-mechanical processes during treatment of a rock mass by fluid injection and/or extraction and have provided consulting services to some of the largest oil-and-gas companies in the world. The breadth and depth of our engineering expertise are reflected by its successful applications in the major unconventional plays in the world, including Permian, Marcellus, Bakken, Eagle Ford, Horn River, Chicontepec, Sichuan, Ordos and many more. The unique combination of the state-of-the-art numerical modeling techniques with state-of-the-practice engineering applications makes the presented material relevant and valuable for engineering practice. We believe that it is beneficial to share the advances on this subject and promote some further development.

ISBN: 9783031257872

Standard No.: 10.1007/978-3-031-25787-2doiSubjects--Topical Terms:

3216673
Geotechnical engineering
--Mathematical models.

LC Class. No.: TA705 / .Z43 2023

Dewey Class. No.: 624.151

Coupled thermo-hydro-mechanical processes in fractured rock masses = discrete element modeling and engineering applications /
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505 0 $a Chapter 1: Introduction to the Discrete Element Method (DEM) and Related Fluid Mechanics Concepts -- Chapter 2: Discrete Element Modeling of Hydraulic Fracturing -- Chapter 3: DEM Coupled with Computational Fluid Dynamics (CFD) -- Chapter 4: DEM Coupled with Dynamic Fluid Mesh (DFM) -- Chapter 5: DEM Coupled with Lattice-Boltzmann Method (LBM) -- Chapter 6: Hydraulic Stimulation of Naturally Fractured Reservoirs -- Chapter 7: Models of Stimulation and Production from Enhanced Geothermal Systems -- Chapter 8: Hydraulic Fracturing Induced Fault Reactivation -- Chapter 9: 3D Lattice Modeling of Hydraulic Fracturing in Naturally Fractured Reservoirs -- Chapter 10: Heat Advection and Forced Convection in a Lattice Code -- Chapter 11: Near Wellbore HF Propagation for Different Perforation Models -- Chapter 12: Design of Extreme Limited Entry Perforation.
520 $a The subject of thermo-hydro-mechanical coupled processes in fractured rock masses has close relevance to energy-related deep earth engineering activities, such as enhanced geothermal systems, geological disposal of radioactive waste, sequestration of CO2, long-term disposal of waste water and recovery of hydrocarbons from unconventional reservoirs. Despite great efforts by engineers and researchers, comprehensive understanding of the thermo-hydro-mechanical coupled processes in fractured rock mass remains a great challenge. The discrete element method (DEM), originally developed by Dr. Peter Cundall, has become widely used for the modeling of a rock mass, including its deformation, damage, fracturing and stability. DEM modeling of the coupled thermo-hydro-mechanical processes in fractured rock masses can provide some unique insights, to say the least, for better understanding of those complex issues. The authors of this book have participated in various projects involving DEM modeling of coupled thermo-hydro-mechanical processes during treatment of a rock mass by fluid injection and/or extraction and have provided consulting services to some of the largest oil-and-gas companies in the world. The breadth and depth of our engineering expertise are reflected by its successful applications in the major unconventional plays in the world, including Permian, Marcellus, Bakken, Eagle Ford, Horn River, Chicontepec, Sichuan, Ordos and many more. The unique combination of the state-of-the-art numerical modeling techniques with state-of-the-practice engineering applications makes the presented material relevant and valuable for engineering practice. We believe that it is beneficial to share the advances on this subject and promote some further development.
650 0 $a Geotechnical engineering $x Mathematical models. $3 3216673
650 0 $a Rocks $x Fracture $x Mathematical models. $3 561038
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650 2 4 $a Soil and Rock Mechanics. $3 3592810
700 1 $a Damjanac, Branko. $3 1293329
700 1 $a Furtney, Jason. $3 3664746
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