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This volume presents the emerging applications of immersed boundary (IB) methods in computational mechanics and complex CFD calculations. It discusses formulations of different IB implementations and also demonstrates applications of these methods in a wide range of problems. It will be of special value to researchers and engineers as well as graduate students working on immersed boundary methods, specifically on recent developments and applications. The book can also be used as a supplementary textbook in advanced courses in computational fluid dynamics.
This volume presents the emerging applications of immersed boundary (IB) methods in computational mechanics and complex CFD calculations. It discusses formulations of different IB implementations and also demonstrates applications of these methods in a wide range of problems. It will be of special value to researchers and engineers as well as graduate students working on immersed boundary methods, specifically on recent developments and applications. The book can also be used as a supplementary textbook in advanced courses in computational fluid dynamics.
Über den Autor
Somnath Roy is an Associate Professor at Indian Institute of Technology Kharagpur. Dr. Roy received his Masters' degree in Mechanical Engineering from IIT Kanpur in 2004, and Ph.D. degree in Mechanical Engineering from Louisiana State University, USA in 2010. Before joining IIT Kharagpur, he worked as a research associate and visiting Assistant Professor at Louisiana State University, USA and as an Assistant Professor at Indian Institute of Technology Kharagpur. His research interest is turbulence, arterial flows, moving boundary flow simulation, high performance computing using cluster and GPGPUs. His primary area of work is computational fluid dynamics (CFD). He has hosted two GIAN programs on computational methods and has also offered online course (NPTEL) on matrix solvers. His group works on developing immersed boundary method (IBM) based computationally efficient algorithms to solve moving boundary problems and on utilizing these implementations to predict flow and heattransfer in engineering and biological applications.
Ashoke De is currently working as Associate Professor in the Department of Aerospace Engineering at Indian Institute of Technology Kanpur. Dr. De received his Masters' degree in Aerospace Engineering from IIT Kanpur in 2004, and Ph.D. degree in Mechanical Engineering from Louisiana State University, USA in 2009. Before joining IIT Kanpur, he worked as a post-doctoral scholar at Technical University of Delft (TU-Delft), Netherlands and as Research Engineer in GE Global Research at Bangalore. He is the recipient of many awards and fellowships including the Humboldt Research fellowship (2018), DAAD Fellowship (2016) and GE Global Research's Expertise Award (2010), among others. Dr. De leads large-scale initiatives in the modeling of turbulent reacting and non-reacting flows at IIT Kanpur. His current research interests include combustion modeling, hybrid RANS/LES model development, supersonic flows and Fluid-Structure interactions (FSI). His primary research focus is the emerging field of computational mechanics with particular interest in combustion and turbulent flows.
Elias Balaras is a Professor at the Department of Mechanical and Aerospace Engineering at George Washington University. Prof. Balaras received his Ph.D. from the Swiss Federal Institute of Technology (EPFL) in Lausanne, Switzerland in 1995. He was formerly a visiting scientist at the National Institute for Standards and Technology and a faculty at the University of Maryland. Prof. Balaras's current research program aims at the development of robust numerical techniques for parallel, large-scale simulations of multiscale, multiphysics problems in physical and biological systems. Emphasis is given at large-eddy and direct numerical simulations, fluid-structure interactions and biological fluid dynamics. He has been the recipient of several awards including the Marie-Curie fellowship from the European Commission in 1994and the career award from the National Science Foundation in 2003. He is currently an Associate Editor at the ASME J. Fluids Engineering and has served as a reviewer for numerous journals and government programs related to fluid mechanics, biological flows, high performance computing and turbulence.
Zusammenfassung
Compilation of research advances in immersed boundary methods
Demonstrates applications of IB methods to a wide range of problems
Includes extensive referencing to relevant research
Inhaltsverzeichnis
Chapter 1: Coupled Curvilinear Immersed Boundary (CURVIB) and Rotation-Free Finite Element (RFFE) method: Concept and Applications.- Chapter 2: Immersed Boundary Methods for Simulating Human Motion Events.- Chapter 3: Immersed Boundary Method for High Reynolds Number Compressible Flows around an Aircraft Configuration.- Chapter 4: Handling Slender/Thin Geometries with Sharp Edges in Sharp-interface Immersed Boundary Approach.- Chapter 5: Mass conservation in sharp interface immersed boundary method - A GPGPU accelerated implementation.- Chapter 6: Solid/Fluid Thermal Coupling Using the Immersed Boundary Method.- Chapter 7: Immersed Boundary Methods for High Reynolds Number Turbulent Flows.- Chapter 8: Immersed boundary method applied to Unsteady Aerodynamics.- Chapter 9: Ghost Fluid Lattice Boltzmann Methods for Complex Geometries.- Chapter 10: Level Set Method based Immersed Boundary Method - Development and Applications.- Chapter 11: Study of momentum and thermal wakes due to elliptic cylinders of different axis ratios using immersed boundary methods.- Chapter 12: Immersed-boundary projection method.- Chapter 13: Development and assessment of a sharp interface immersed boundary method for compressible flows.- chapter 14: Development and Application of Immersed-boundary Methods for Compressible Flows.- Chapter 15: Sharp-interface Eulerian methods for high-speed multi-material flows.- Chapter 16: A higher-order cut-cell methodology for simulation of compressible viscous flow with extension to moving boundary problems.- Chapter 17: Sharp Interface Immersed boundary method for tackling large-scale flow-induced deformation.
Details
Erscheinungsjahr: | 2020 |
---|---|
Fachbereich: | Fertigungstechnik |
Genre: | Importe, Technik |
Rubrik: | Naturwissenschaften & Technik |
Medium: | Buch |
Reihe: | Computational Methods in Engineering & the Sciences |
Inhalt: |
xii
442 S. 75 s/w Illustr. 185 farbige Illustr. 442 p. 260 illus. 185 illus. in color. |
ISBN-13: | 9789811539398 |
ISBN-10: | 9811539391 |
Sprache: | Englisch |
Ausstattung / Beilage: | HC runder Rücken kaschiert |
Einband: | Gebunden |
Redaktion: |
Roy, Somnath
Balaras, Elias de, Ashoke |
Herausgeber: | Somnath Roy/Ashoke De/Elias Balaras |
Auflage: | 1st ed. 2020 |
Hersteller: |
Springer Singapore
Springer Nature Singapore Computational Methods in Engineering & the Sciences |
Verantwortliche Person für die EU: | Books on Demand GmbH, In de Tarpen 42 In de Tarpen 42, D-22848 Norderstedt, info@bod.de |
Maße: | 241 x 160 x 29 mm |
Von/Mit: | Somnath Roy (u. a.) |
Erscheinungsdatum: | 16.05.2020 |
Gewicht: | 0,929 kg |
Über den Autor
Somnath Roy is an Associate Professor at Indian Institute of Technology Kharagpur. Dr. Roy received his Masters' degree in Mechanical Engineering from IIT Kanpur in 2004, and Ph.D. degree in Mechanical Engineering from Louisiana State University, USA in 2010. Before joining IIT Kharagpur, he worked as a research associate and visiting Assistant Professor at Louisiana State University, USA and as an Assistant Professor at Indian Institute of Technology Kharagpur. His research interest is turbulence, arterial flows, moving boundary flow simulation, high performance computing using cluster and GPGPUs. His primary area of work is computational fluid dynamics (CFD). He has hosted two GIAN programs on computational methods and has also offered online course (NPTEL) on matrix solvers. His group works on developing immersed boundary method (IBM) based computationally efficient algorithms to solve moving boundary problems and on utilizing these implementations to predict flow and heattransfer in engineering and biological applications.
Ashoke De is currently working as Associate Professor in the Department of Aerospace Engineering at Indian Institute of Technology Kanpur. Dr. De received his Masters' degree in Aerospace Engineering from IIT Kanpur in 2004, and Ph.D. degree in Mechanical Engineering from Louisiana State University, USA in 2009. Before joining IIT Kanpur, he worked as a post-doctoral scholar at Technical University of Delft (TU-Delft), Netherlands and as Research Engineer in GE Global Research at Bangalore. He is the recipient of many awards and fellowships including the Humboldt Research fellowship (2018), DAAD Fellowship (2016) and GE Global Research's Expertise Award (2010), among others. Dr. De leads large-scale initiatives in the modeling of turbulent reacting and non-reacting flows at IIT Kanpur. His current research interests include combustion modeling, hybrid RANS/LES model development, supersonic flows and Fluid-Structure interactions (FSI). His primary research focus is the emerging field of computational mechanics with particular interest in combustion and turbulent flows.
Elias Balaras is a Professor at the Department of Mechanical and Aerospace Engineering at George Washington University. Prof. Balaras received his Ph.D. from the Swiss Federal Institute of Technology (EPFL) in Lausanne, Switzerland in 1995. He was formerly a visiting scientist at the National Institute for Standards and Technology and a faculty at the University of Maryland. Prof. Balaras's current research program aims at the development of robust numerical techniques for parallel, large-scale simulations of multiscale, multiphysics problems in physical and biological systems. Emphasis is given at large-eddy and direct numerical simulations, fluid-structure interactions and biological fluid dynamics. He has been the recipient of several awards including the Marie-Curie fellowship from the European Commission in 1994and the career award from the National Science Foundation in 2003. He is currently an Associate Editor at the ASME J. Fluids Engineering and has served as a reviewer for numerous journals and government programs related to fluid mechanics, biological flows, high performance computing and turbulence.
Zusammenfassung
Compilation of research advances in immersed boundary methods
Demonstrates applications of IB methods to a wide range of problems
Includes extensive referencing to relevant research
Inhaltsverzeichnis
Chapter 1: Coupled Curvilinear Immersed Boundary (CURVIB) and Rotation-Free Finite Element (RFFE) method: Concept and Applications.- Chapter 2: Immersed Boundary Methods for Simulating Human Motion Events.- Chapter 3: Immersed Boundary Method for High Reynolds Number Compressible Flows around an Aircraft Configuration.- Chapter 4: Handling Slender/Thin Geometries with Sharp Edges in Sharp-interface Immersed Boundary Approach.- Chapter 5: Mass conservation in sharp interface immersed boundary method - A GPGPU accelerated implementation.- Chapter 6: Solid/Fluid Thermal Coupling Using the Immersed Boundary Method.- Chapter 7: Immersed Boundary Methods for High Reynolds Number Turbulent Flows.- Chapter 8: Immersed boundary method applied to Unsteady Aerodynamics.- Chapter 9: Ghost Fluid Lattice Boltzmann Methods for Complex Geometries.- Chapter 10: Level Set Method based Immersed Boundary Method - Development and Applications.- Chapter 11: Study of momentum and thermal wakes due to elliptic cylinders of different axis ratios using immersed boundary methods.- Chapter 12: Immersed-boundary projection method.- Chapter 13: Development and assessment of a sharp interface immersed boundary method for compressible flows.- chapter 14: Development and Application of Immersed-boundary Methods for Compressible Flows.- Chapter 15: Sharp-interface Eulerian methods for high-speed multi-material flows.- Chapter 16: A higher-order cut-cell methodology for simulation of compressible viscous flow with extension to moving boundary problems.- Chapter 17: Sharp Interface Immersed boundary method for tackling large-scale flow-induced deformation.
Details
Erscheinungsjahr: | 2020 |
---|---|
Fachbereich: | Fertigungstechnik |
Genre: | Importe, Technik |
Rubrik: | Naturwissenschaften & Technik |
Medium: | Buch |
Reihe: | Computational Methods in Engineering & the Sciences |
Inhalt: |
xii
442 S. 75 s/w Illustr. 185 farbige Illustr. 442 p. 260 illus. 185 illus. in color. |
ISBN-13: | 9789811539398 |
ISBN-10: | 9811539391 |
Sprache: | Englisch |
Ausstattung / Beilage: | HC runder Rücken kaschiert |
Einband: | Gebunden |
Redaktion: |
Roy, Somnath
Balaras, Elias de, Ashoke |
Herausgeber: | Somnath Roy/Ashoke De/Elias Balaras |
Auflage: | 1st ed. 2020 |
Hersteller: |
Springer Singapore
Springer Nature Singapore Computational Methods in Engineering & the Sciences |
Verantwortliche Person für die EU: | Books on Demand GmbH, In de Tarpen 42 In de Tarpen 42, D-22848 Norderstedt, info@bod.de |
Maße: | 241 x 160 x 29 mm |
Von/Mit: | Somnath Roy (u. a.) |
Erscheinungsdatum: | 16.05.2020 |
Gewicht: | 0,929 kg |
Sicherheitshinweis