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Lattice Boltzmann method and its app...
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Guo, Zhaoli.
Lattice Boltzmann method and its applications in engineering /
紀錄類型:
書目-語言資料,印刷品 : Monograph/item
正題名/作者:
Lattice Boltzmann method and its applications in engineering /Zhaoli Guo, Chang Shu.
作者:
Guo, Zhaoli.
其他作者:
Shu, Chang,
出版者:
[Hackensack,] New Jersey :World Scientfic,c2013.
面頁冊數:
xiii, 404 p. :ill. ;24 cm.
標題:
Lattice Boltzmann methods.
ISBN:
9789814508292 (hbk.) :
Lattice Boltzmann method and its applications in engineering /
Guo, Zhaoli.
Lattice Boltzmann method and its applications in engineering /
Zhaoli Guo, Chang Shu. - [Hackensack,] New Jersey :World Scientfic,c2013. - xiii, 404 p. :ill. ;24 cm. - Advances in computational fluid dynamics ;v. 3. - Advances in computational fluid dynamics ;v. 2..
Includes bibliographical references (p. 373-396) and index.
Ch. 1. Introduction. 1.1. Description of fluid system at different scales. 1.2. Numerical methods for fluid flows. 1.3. History of LBE. 1.4. Basic models of LBE. 1.5. Summary -- ch. 2. Initial and boundary conditions for lattice Boltzmann method. 2.1. Initial conditions. 2.2. Boundary conditions for flat walls. 2.3. Boundary conditions for curved walls. 2.4. Pressure boundary conditions. 2.5. Summary -- ch. 3. Improved lattice Boltzmann models. 3.1. Incompressible models. 3.2. Forcing schemes with reduced discrete lattice effects. 3.3. LBE with nonuniform grids. 3.4. Accelerated LBE methods for steady flows. 3.5. Summary -- ch. 4. Sample applications of LBE for isothermal flows. 4.1. Algorithm structure of LBE. 4.2. Lid-driven cavity flow. 4.3. Flow around a fixed circular cylinder. 4.4. Flow around an oscillating circular cylinder with a fixed downstream one. 4.5. Summary -- ch. 5. LBE for low speed flows with heat transfer. 5.1. Multi-speed models. 5.2. MS-LBE models based on Boltzmann equation. 5.3. Off-lattice LBE models. 5.4. MS-LBE models with adjustable Prandtl number. 5.5. DDF-LBE models without viscous dissipation and compression work. 5.6. DDF-LBE with viscous dissipation and compression work -- internal energy formulation. 5.7. DDF-LBE with viscous dissipation and compression work -- total energy formulation. 5.8. Hybrid LBE models. 5.9. Summary -- ch. 6. LBE for compressible flows. 6.1. Limitation of conventional LBE models for compressible flows. 6.2. Conventional equilibrium function-based LBE models for compressible flows. 6.3. Circular function-based LBE models for compressible flows. 6.4. Delta function-based LBE models for compressible flows. 6.5. Direct derivation of equilibrium distribution functions from conservation of moments. 6.6. Solution of discrete velocity Boltzmann equation. 6.7. Lattice Boltzmann flux solver for solution of Euler equations. 6.8. Some sample applications. 6.9. Summary -- ch. 7. LBE for multiphase and
Lattice Boltzmann method (LBM) is a relatively new simulation technique for the modeling of complex fluid systems and has attracted interest from researchers in computational physics. Unlike the traditional CFD methods, which solve the conservation equations of macroscopic properties (i.e., mass, momentum, and energy) numerically, LBM models the fluid consisting of fictive particles, and such particles perform consecutive propagation and collision processes over a discrete lattice mesh. This book will cover the fundamental and practical application of LBM. The first part of the book consists of three chapters starting form the theory of LBM, basic models, initial and boundary conditions, theoretical analysis, to improved models. The second part of the book consists of six chapters, address applications of LBM in various aspects of computational fluid dynamic engineering, covering areas, such as thermo-hydrodynamics, compressible flows, multicomponent/multiphase flows, microscale flows, flows in porous media, turbulent flows, and suspensions. With these coverage LBM, the book intended to promote its applications, instead of the traditional computational fluid dynamic method.
ISBN: 9789814508292 (hbk.) :NT$3652
LCCN: 2013427303Subjects--Topical Terms:
670852
Lattice Boltzmann methods.
LC Class. No.: TA357 / .G882 2013
Dewey Class. No.: 620.106
Lattice Boltzmann method and its applications in engineering /
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Ch. 1. Introduction. 1.1. Description of fluid system at different scales. 1.2. Numerical methods for fluid flows. 1.3. History of LBE. 1.4. Basic models of LBE. 1.5. Summary -- ch. 2. Initial and boundary conditions for lattice Boltzmann method. 2.1. Initial conditions. 2.2. Boundary conditions for flat walls. 2.3. Boundary conditions for curved walls. 2.4. Pressure boundary conditions. 2.5. Summary -- ch. 3. Improved lattice Boltzmann models. 3.1. Incompressible models. 3.2. Forcing schemes with reduced discrete lattice effects. 3.3. LBE with nonuniform grids. 3.4. Accelerated LBE methods for steady flows. 3.5. Summary -- ch. 4. Sample applications of LBE for isothermal flows. 4.1. Algorithm structure of LBE. 4.2. Lid-driven cavity flow. 4.3. Flow around a fixed circular cylinder. 4.4. Flow around an oscillating circular cylinder with a fixed downstream one. 4.5. Summary -- ch. 5. LBE for low speed flows with heat transfer. 5.1. Multi-speed models. 5.2. MS-LBE models based on Boltzmann equation. 5.3. Off-lattice LBE models. 5.4. MS-LBE models with adjustable Prandtl number. 5.5. DDF-LBE models without viscous dissipation and compression work. 5.6. DDF-LBE with viscous dissipation and compression work -- internal energy formulation. 5.7. DDF-LBE with viscous dissipation and compression work -- total energy formulation. 5.8. Hybrid LBE models. 5.9. Summary -- ch. 6. LBE for compressible flows. 6.1. Limitation of conventional LBE models for compressible flows. 6.2. Conventional equilibrium function-based LBE models for compressible flows. 6.3. Circular function-based LBE models for compressible flows. 6.4. Delta function-based LBE models for compressible flows. 6.5. Direct derivation of equilibrium distribution functions from conservation of moments. 6.6. Solution of discrete velocity Boltzmann equation. 6.7. Lattice Boltzmann flux solver for solution of Euler equations. 6.8. Some sample applications. 6.9. Summary -- ch. 7. LBE for multiphase and
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multi-component flows. 7.1. Color models. 7.2. Pseudo-potential models. 7.3. Free energy models. 7.4. LBE models based on kinetic theories. 7.5. Summary -- ch. 8. LBE for microscale gas flows. 8.1. Introduction. 8.2. Fundamental issues in LBE for micro gaseous flows. 8.3. LBE for slip flows. 8.4. LBE for transition flows. 8.5. LBE for microscale binary mixture flows. 8.6. Summary -- ch. 9. Other applications of LBE. 9.1. Applications of LBE for particulate flows. 9.2. Applications of LBE for flows in porous media. 9.3. Applications of LBE for turbulent flows. 9.4. Immersed boundary-lattice Boltzmann method and its applications. 9.5. Summary.
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Lattice Boltzmann method (LBM) is a relatively new simulation technique for the modeling of complex fluid systems and has attracted interest from researchers in computational physics. Unlike the traditional CFD methods, which solve the conservation equations of macroscopic properties (i.e., mass, momentum, and energy) numerically, LBM models the fluid consisting of fictive particles, and such particles perform consecutive propagation and collision processes over a discrete lattice mesh. This book will cover the fundamental and practical application of LBM. The first part of the book consists of three chapters starting form the theory of LBM, basic models, initial and boundary conditions, theoretical analysis, to improved models. The second part of the book consists of six chapters, address applications of LBM in various aspects of computational fluid dynamic engineering, covering areas, such as thermo-hydrodynamics, compressible flows, multicomponent/multiphase flows, microscale flows, flows in porous media, turbulent flows, and suspensions. With these coverage LBM, the book intended to promote its applications, instead of the traditional computational fluid dynamic method.
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