000			06463cam a2200853 i 4500
001			ocn902803273
003			OCoLC
005			20230823095420.0
006			m o d
007			cr |||||||||||
008			150203s2015 enk ob 001 0 eng
010			_a 2015004594
040			_aDLC _beng _erda _cDLC _dOCLCF _dN$T _dYDXCP _dDG1 _dIDEBK _dOCLCO _dCDX _dDEBSZ _dOCLCA _dEBLCP _dRECBK _dOCLCO _dDEBBG _dKSU
066			_c(S
019			_a913797433
020			_a9781118971345 (epub)
020			_a1118971345 (epub)
020			_a9781118971444 (pdf)
020			_a1118971442 (pdf)
020			_z9781118971338 (cloth)
020			_a9781118971451
020			_a1118971450
029	1		_aAU@ _b000054214026
029	1		_aGBVCP _b832445711
029	1		_aDEBSZ _b453345395
029	1		_aDEBBG _bBV042989349
029	1		_aDEBSZ _b449477258
029	1		_aDEBBG _bBV043397493
035			_a(OCoLC)902803273 _z(OCoLC)913797433
042			_apcc
050	0	0	_aTA357.5.M84
072		7	_aSCI _x024000 _2bisacsh
072		7	_aSCI _x041000 _2bisacsh
072		7	_aSCI _x055000 _2bisacsh
082	0	0	_a530.13/2 _223
049			_aMAIN
100	1		_aHuang, Haibo _c(Engineering professor)
245	1	0	_aMultiphase lattice Boltzmann methods : _btheory and application / _cHaibo Huang, Michael C. Sukop, and Xi-Yun Lu.
264		1	_aChichester, West Sussex, UK : _aHoboken, New Jersey _bJohn Wiley and Sons, Inc., _c2015.
300			_a1 online resource.
336			_atext _2rdacontent
337			_acomputer _2rdamedia
338			_aonline resource _2rdacarrier
504			_aIncludes bibliographical references and index.
588			_aDescription based on print version record and CIP data provided by publisher.
505	8		_6880-01 _a2.1.1 ""Equilibrium"" velocity in the SC model2.1.2 Inter-particle forces in the SC SCMP LBM; 2.2 Typical equations of state; 2.2.1 Parameters in EOS; 2.3 Thermodynamic consistency; 2.3.1 The SCMP LBM EOS; 2.3.2 Incorporating other EOS into the SC model; 2.4 Analytical surface tension; 2.4.1 Inter-particle Force Model A; 2.4.2 Inter-particle Force Model B; 2.5 Contact angle; 2.6 Capillary rise; 2.7 Parallel flow and relative permeabilities; 2.8 Forcing term in the SC model; 2.8.1 Schemes to incorporate the body force; 2.8.2 Scheme overview; 2.8.3 Theoretical analysis.
505	8		_a2.8.4 Numerical results and discussion2.9 Multirange pseudopotential (Inter-particle Force Model B); 2.10 Conclusions; 2.11 Appendix A: Analytical solution for layered multiphase flow in a channel; 2.12 Appendix B: FORTRAN code to simulate single component multiphase droplet contacting a wall, as shown in Figure 2.7(c); Chapter 3 Shan and Chen-type multi-component multiphase models; 3.1 Multi-component multiphase SC LBM; 3.1.1 Fluid-fluid cohesion and fluid-solid adhesion; 3.2 Derivation of the pressure; 3.2.1 Pressure in popular papers (2D); 3.2.2 Pressure in popular papers (3D).
505	8		_a3.3 Determining Gc and the surface tension3.4 Contact angle; 3.4.1 Application of Young's equation to MCMP LBM; 3.4.2 Contact angle measurement; 3.4.3 Verification of proposed equation; 3.5 Flow through capillary tubes; 3.6 Layered two-phase flow in a 2D channel; 3.7 Pressure or velocity boundary conditions; 3.7.1 Boundary conditions for 2D simulations; 3.7.2 Boundary conditions for 3D simulations; 3.8 Displacement in a 3D porous medium; Chapter 4 Rothman-Keller multiphase Lattice Boltzmann model; 4.1 Introduction; 4.2 RK color-gradient model.
505	8		_a4.3 Theoretical analysis (Chapman-Enskog expansion)4.3.1 Discussion of above formulae; 4.4 Layered two-phase flow in a 2D channel; 4.4.1 Cases of two fluids with identical densities; 4.4.2 Cases of two fluids with different densities; 4.5 Interfacial tension and isotropy of the RK model; 4.5.1 Interfacial tension; 4.5.2 Isotropy; 4.6 Drainage and capillary filling; 4.7 MRT RK model; 4.8 Contact angle; 4.8.1 Spurious currents; 4.9 Tests of inlet/outlet boundary conditions; 4.10 Immiscible displacements in porous media; 4.11 Appendix A; 4.12 Appendix B.
520			_aTheory and Application of Multiphase Lattice Boltzmann Methods presents a comprehensive review of all popular multiphase Lattice Boltzmann Methods developed thus far and is aimed at researchers and practitioners within relevant Earth Science disciplines as well as Petroleum, Chemical, Mechanical and Geological Engineering. Clearly structured throughout, this book will be an invaluable reference on the current state of all popular multiphase Lattice Boltzmann Methods (LBMs). The advantages and disadvantages of each model are presented in an accessible manner to enable the reader to choose the.
650		0	_aLattice Boltzmann methods.
650		0	_aMultiphase flow.
650		0	_aFluid dynamics.
650		0	_aFluid dynamics _xMathematical models.
650		7	_aFluid dynamics. _2fast _0(OCoLC)fst00927973
650		7	_aFluid dynamics _xMathematical models. _2fast _0(OCoLC)fst00927982
650		7	_aLattice Boltzmann methods. _2fast _0(OCoLC)fst01746859
650		7	_aMultiphase flow. _2fast _0(OCoLC)fst01028951
650		7	_aSCIENCE / Energy _2bisacsh
650		7	_aSCIENCE / Mechanics / General _2bisacsh
650		7	_aSCIENCE / Physics / General _2bisacsh
650		4	_aFluid dynamics _xMathematical models.
650		4	_aFluid dynamics.
650		4	_aLattice Boltzmann methods.
650		4	_aMultiphase flow.
655		4	_aElectronic books.
700	1		_aSukop, Michael C.
700	1		_aLu, Xi-Yun.
776	0	8	_iPrint version: _aHuang, Haibo (Engineering professor) _tMultiphase lattice Boltzmann methods _dChichester, West Sussex : John Wiley and Sons, Inc., 2015 _z9781118971338 _w(DLC) 2015004408
856	4	0	_uhttp://dx.doi.org/10.1002/9781118971451 _zWiley Online Library
880	0		_6505-01/(S _aCover; Title Page; Copyright; Contents; Preface; About the companion website; Chapter 1 Introduction; 1.1 History of the Lattice Boltzmann method; 1.2 The Lattice Boltzmann method; 1.3 Multiphase LBM; 1.3.1 Color-gradient model; 1.3.2 Shan-Chen model; 1.3.3 Free-energy model; 1.3.4 Interface tracking model; 1.4 Comparison of models; 1.5 Units in this book and parameter conversion; 1.6 Appendix: Einstein summation convention; 1.6.1 Kronecker δ function; 1.6.2 Lattice tensors; 1.7 Use of the Fortran code in the book; Chapter 2 Single-component multiphase Shan-Chen-type model; 2.1 Introduction.
994			_a92 _bDG1
999			_c18499 _d18458
526			_bps