| 000 | 01982nam a2200265 4500 | ||
|---|---|---|---|
| 005 | 20250623123151.0 | ||
| 008 | 250623b |||||||| |||| 00| 0 eng d | ||
| 020 | _a9781944660246 | ||
| 040 |
_aCSL _cCSL |
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| 041 |
_2eng _aeng |
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| 084 |
_aB29M15 R2 _qCSL |
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| 100 |
_aInamuro, Takaji _eauhor. _9814210 |
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| 245 |
_aIntroduction to the lattice boltzmann method _b: A numerical method for complex boundary and moving boundary flows |
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| 300 |
_axi, 153p. _b: ill. _c; 23 cm. |
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| 500 | _aIncludes Reference, bibliography and index | ||
| 520 | _aThe book is organized as follows. In Chapter 1, the SRT- and MRT-LBM schemes are derived from the discrete Boltzmann equation for lattice gases and the relation between the LBM and the Navier-Stokes equation is explained by using the asymptotic expansion (not the Chapman-Enskog expansion). Chapter 2 presents the lattice kinetic scheme (LKS) which is an extension method of the LBM and can save memory because of needlessness for storing the velocity distribution functions. In addition, an improved LKS which can stably simulate high Reynolds number flows is presented. In Chapter 3, the LBM combined with the immersed boundary method (IB-LBM) is presented. The IB-LBM is well suitable for moving boundary flows. In Chapter 4, the two-phase LBM is explained from the point of view of the difficulty in computing two-phase flows with large density ratio. Then, a two-phase LBM for large density ratios is presented. In Appendix, sample codes (available for download) are given for users. | ||
| 650 |
_aLattice Boltzmann method. _9814211 |
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| 650 |
_aFluid mechanics. _9814212 |
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| 650 |
_aNumerical analysis. _9713154 |
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| 650 |
_aBoundary value problems. _9733776 |
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| 650 |
_aEngineering mathematics. _9812894 |
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| 700 |
_aYoshino, Masato _eco-author. _9814213 |
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| 700 |
_aSuzuki, Kosuke _eco-author. _9814214 |
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| 942 |
_2CC _n0 _cTEXL _hB29M15 R2 |
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| 999 |
_c1432776 _d1432776 |
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