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W1995514446 endingPage "1220" @default.
W1995514446 startingPage "1203" @default.
W1995514446 abstract "In the last decade, minimal kinetic models, and primarily the lattice Boltzmann equation, have met with significant success in the simulation of complex hydrodynamic phenomena, ranging from slow flows in grossly irregular geometries to fully developed turbulence, to flows with dynamic phase transitions. Besides their practical value as efficient computational tools for the dynamics of complex systems, these minimal models may also represent a new conceptual paradigm in modern computational statistical mechanics: instead of proceeding bottom-up from the underlying microdynamic systems, these minimal kinetic models are built top-down starting from the macroscopic target equations. This procedure can provide dramatic advantages, provided the essential physics is not lost along the way. For dissipative systems, one essential requirement is compliance with the second law of thermodynamics. In this Colloquium, the authors present a chronological survey of the main ideas behind the lattice Boltzmann method, with special focus on the role played by the $H$ theorem in enforcing compliance of the method with macroscopic evolutionary constraints (the second law) as well as in serving as a numerically stable computational tool for fluid flows and other dissipative systems out of equilibrium." @default.
W1995514446 created "2016-06-24" @default.
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W1995514446 date "2002-11-20" @default.
W1995514446 modified "2023-10-05" @default.
W1995514446 title "<i>Colloquium</i>: Role of the<i>H</i>theorem in lattice Boltzmann hydrodynamic simulations" @default.
W1995514446 cites W156433884 @default.
W1995514446 cites W1966467236 @default.
W1995514446 cites W1967859741 @default.
W1995514446 cites W1969064103 @default.
W1995514446 cites W1973513868 @default.
W1995514446 cites W1980043315 @default.
W1995514446 cites W1981857852 @default.
W1995514446 cites W1982933896 @default.
W1995514446 cites W1983312043 @default.
W1995514446 cites W1983874169 @default.
W1995514446 cites W1992450488 @default.
W1995514446 cites W1992773065 @default.
W1995514446 cites W1994562989 @default.
W1995514446 cites W1994644189 @default.
W1995514446 cites W1999574688 @default.
W1995514446 cites W1999914547 @default.
W1995514446 cites W2002894916 @default.
W1995514446 cites W2011654143 @default.
W1995514446 cites W2011817893 @default.
W1995514446 cites W2014504423 @default.
W1995514446 cites W2014786311 @default.
W1995514446 cites W2016701500 @default.
W1995514446 cites W2017297964 @default.
W1995514446 cites W2021035369 @default.
W1995514446 cites W2023387488 @default.
W1995514446 cites W2025302810 @default.
W1995514446 cites W2028364031 @default.
W1995514446 cites W2030841887 @default.
W1995514446 cites W2030891958 @default.
W1995514446 cites W2032464697 @default.
W1995514446 cites W2034997378 @default.
W1995514446 cites W2035157815 @default.
W1995514446 cites W2040259398 @default.
W1995514446 cites W2053053490 @default.
W1995514446 cites W2055281720 @default.
W1995514446 cites W2060138396 @default.
W1995514446 cites W2066060292 @default.
W1995514446 cites W2068530488 @default.
W1995514446 cites W2068702383 @default.
W1995514446 cites W2072063763 @default.
W1995514446 cites W2079631834 @default.
W1995514446 cites W2080297447 @default.
W1995514446 cites W2088757532 @default.
W1995514446 cites W2089954211 @default.
W1995514446 cites W2093310284 @default.
W1995514446 cites W2093375419 @default.
W1995514446 cites W2093745149 @default.
W1995514446 cites W2093919312 @default.
W1995514446 cites W2096223665 @default.
W1995514446 cites W2117242079 @default.
W1995514446 cites W2120182139 @default.
W1995514446 cites W2123950362 @default.
W1995514446 cites W2128261248 @default.
W1995514446 cites W2167108735 @default.
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W1995514446 cites W3098206122 @default.
W1995514446 cites W3101214664 @default.
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W1995514446 doi "https://doi.org/10.1103/revmodphys.74.1203" @default.
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