This monograph aims to provide state-of-the-art theoretical results in a systematic treatment of convective and advective heat transfer during fluid flow in geological systems at the crustal scale. Although some numerical results are provided to complement theoretical ones, the main focus of this monograph is on theoretical aspects of the topic. The theoretical treatment contained in this monograph is also applicable to a wide range of problems of other length-scales such as engineering length-scales. To broaden the readership of this monograph, common mathematical notations are used to derive…mehr
This monograph aims to provide state-of-the-art theoretical results in a systematic treatment of convective and advective heat transfer during fluid flow in geological systems at the crustal scale. Although some numerical results are provided to complement theoretical ones, the main focus of this monograph is on theoretical aspects of the topic. The theoretical treatment contained in this monograph is also applicable to a wide range of problems of other length-scales such as engineering length-scales. To broaden the readership of this monograph, common mathematical notations are used to derive the theoretical solutions. This enables this monograph to be used either as a useful textbook for postgraduate students or as a valuable reference book for mathematicians, engineers and geoscientists.
Produktdetails
Produktdetails
Advances in Geophysical and Environmental Mechanics and Mathematics
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Autorenporträt
Dr Chongbin Zhao obtained BE and PhD in Tsinghua University, China. He worked as Postdoctoral Research Fellow, Research Fellow, Senior Project Scientist, and Senior Research Scientist in Australia. He also worked as Professor, Cheung Kong Scholar, and Chair Professor in China. He is an author of more than 130 papers in peer-refereed international journals. Dr Bruce Hobbs obtained a BSc and PhD from Sydney University and has held academic positions at The University of California at Los Angeles and Davis, The Australian National University, Monash University and The State University of NY at Albany. He has held senior positions in the Australian Commonwealth Research and Industrial Organization. He is author of over 140 papers in peer-refereed international journals. Dr Alison Ord obtained a BSc from the University of Edinburgh and a PhD from the University of California at Los Angeles. She undertook research at Monash University before joining the Australian Commonwealth Research and Industrial Organization where she is presently a Chief Research Scientist. She is author of over 50 papers in peer-refereed international journals.
Inhaltsangabe
Distribution of Pore-Fluid Pressure Gradient in the Crust with Temperature Neglected.- Pore-Fluid Pressure Gradients in the Crust with Heat Conduction and Advection.- Convective Heat Transfer in a Homogeneous Crust.- Convective Heat Transfer in a Heterogeneous Crust.- Pore-Fluid Focusing within Two-Dimensional Faults and Cracks of Crustal Scales with No Temperature Effects: Solutions Expressed in a Local Coordinate System.- Pore-Fluid Focusing within Two-Dimensional Faults and Cracks of Crustal Scales with No Temperature Effects: Solutions Expressed in a Global Coordinate System.- Pore-Fluid Flow Focused Transient Heat Transfer within and around Two-Dimensional Faults and Cracks of Crustal Scales.- Convective Heat Transfer within Three-Dimensional Vertical Faults Heated from Below.- Convective Heat Transfer within Three-Dimensional Inclined Faults Heated from Below.- Double-Diffusion Driven Convective Heat Transfer within Three-Dimensional Vertical Faults Heated from Below.- Convection Induced Ore Body Formation and Mineralization within the Upper Crust of the Earth.
Distribution of Pore-Fluid Pressure Gradient in the Crust with Temperature Neglected.- Pore-Fluid Pressure Gradients in the Crust with Heat Conduction and Advection.- Convective Heat Transfer in a Homogeneous Crust.- Convective Heat Transfer in a Heterogeneous Crust.- Pore-Fluid Focusing within Two-Dimensional Faults and Cracks of Crustal Scales with No Temperature Effects: Solutions Expressed in a Local Coordinate System.- Pore-Fluid Focusing within Two-Dimensional Faults and Cracks of Crustal Scales with No Temperature Effects: Solutions Expressed in a Global Coordinate System.- Pore-Fluid Flow Focused Transient Heat Transfer within and around Two-Dimensional Faults and Cracks of Crustal Scales.- Convective Heat Transfer within Three-Dimensional Vertical Faults Heated from Below.- Convective Heat Transfer within Three-Dimensional Inclined Faults Heated from Below.- Double-Diffusion Driven Convective Heat Transfer within Three-Dimensional Vertical Faults Heated from Below.- Convection Induced Ore Body Formation and Mineralization within the Upper Crust of the Earth.
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