SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2999328515> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W2999328515 endingPage "109245" @default.
W2999328515 startingPage "109245" @default.
W2999328515 abstract "One of the central problems in the study of rarefied gas dynamics is to find the steady-state solution of the Boltzmann equation quickly. When the Knudsen number is large, i.e. the system is highly rarefied, the conventional iterative scheme can lead to convergence within a few iterations. However, when the Knudsen number is small, i.e. the flow falls in the near-continuum regime, hundreds of thousands iterations are needed, and yet the “converged” solutions are prone to be contaminated by accumulated error and large numerical dissipation. Recently, based on the gas kinetic models, the implicit unified gas kinetic scheme (UGKS) and its variants have significantly reduced the number of iterations in the near-continuum flow regime, but still much higher than that of the highly rarefied gas flows. In this paper, we put forward a general synthetic iterative scheme (GSIS) to find the steady-state solutions of rarefied gas flows within dozens of iterations at any Knudsen number. The key ingredient of our scheme is that the macroscopic equations, which are solved together with the Boltzmann equation and help to adjust the velocity distribution function, not only asymptotically preserve the Navier-Stokes limit in the framework of Chapman-Enskog expansion, but also contain the Newton's law for stress and the Fourier's law for heat conduction explicitly. For this reason, like the implicit UGKS, the constraint that the spatial cell size should be smaller than the mean free path of gas molecules is removed, but we do not need the complex evaluation of numerical flux at cell interfaces. What's more, as the GSIS does not rely on the specific collision operator, it can be naturally extended to quickly find converged solutions for mixture flows and even flows involving chemical reactions. These two superior advantages are expected to accelerate the slow convergence in the simulation of near-continuum flows via the direct simulation Monte Carlo method and its low-variance version." @default.
W2999328515 created "2020-01-23" @default.
W2999328515 creator A5040952837 @default.
W2999328515 creator A5054108552 @default.
W2999328515 creator A5068912722 @default.
W2999328515 creator A5070400567 @default.
W2999328515 creator A5073773781 @default.
W2999328515 date "2020-04-01" @default.
W2999328515 modified "2023-09-25" @default.
W2999328515 title "Can we find steady-state solutions to multiscale rarefied gas flows within dozens of iterations?" @default.
W2999328515 cites W1823924715 @default.
W2999328515 cites W1967830076 @default.
W2999328515 cites W1970412520 @default.
W2999328515 cites W1980932156 @default.
W2999328515 cites W1981345116 @default.
W2999328515 cites W1991849166 @default.
W2999328515 cites W1992425556 @default.
W2999328515 cites W1994588055 @default.
W2999328515 cites W2003105834 @default.
W2999328515 cites W2019044473 @default.
W2999328515 cites W2022111285 @default.
W2999328515 cites W2022303363 @default.
W2999328515 cites W2024268126 @default.
W2999328515 cites W2038676136 @default.
W2999328515 cites W2040988293 @default.
W2999328515 cites W2042624429 @default.
W2999328515 cites W2045390741 @default.
W2999328515 cites W2045485653 @default.
W2999328515 cites W2054278710 @default.
W2999328515 cites W2061917843 @default.
W2999328515 cites W2066334248 @default.
W2999328515 cites W2069808151 @default.
W2999328515 cites W2070699347 @default.
W2999328515 cites W2080735958 @default.
W2999328515 cites W2081071747 @default.
W2999328515 cites W2085955212 @default.
W2999328515 cites W2091867396 @default.
W2999328515 cites W2095092117 @default.
W2999328515 cites W2103058105 @default.
W2999328515 cites W2104914226 @default.
W2999328515 cites W2106212989 @default.
W2999328515 cites W2106743858 @default.
W2999328515 cites W2108973612 @default.
W2999328515 cites W2124766037 @default.
W2999328515 cites W2126259382 @default.
W2999328515 cites W2126434014 @default.
W2999328515 cites W2131947874 @default.
W2999328515 cites W2134007192 @default.
W2999328515 cites W2138887979 @default.
W2999328515 cites W2142708530 @default.
W2999328515 cites W2145627784 @default.
W2999328515 cites W2153721185 @default.
W2999328515 cites W2159954988 @default.
W2999328515 cites W2169636091 @default.
W2999328515 cites W2299370934 @default.
W2999328515 cites W2309411886 @default.
W2999328515 cites W2325570756 @default.
W2999328515 cites W2582585095 @default.
W2999328515 cites W2605918820 @default.
W2999328515 cites W2769576272 @default.
W2999328515 cites W2794865344 @default.
W2999328515 cites W2810179015 @default.
W2999328515 cites W2894670096 @default.
W2999328515 cites W2901912205 @default.
W2999328515 cites W2905630825 @default.
W2999328515 cites W2923022528 @default.
W2999328515 cites W2963383708 @default.
W2999328515 cites W2976473709 @default.
W2999328515 cites W3101662299 @default.
W2999328515 cites W40634382 @default.
W2999328515 doi "https://doi.org/10.1016/j.jcp.2020.109245" @default.
W2999328515 hasPublicationYear "2020" @default.
W2999328515 type Work @default.
W2999328515 sameAs 2999328515 @default.
W2999328515 citedByCount "51" @default.
W2999328515 countsByYear W29993285152019 @default.
W2999328515 countsByYear W29993285152020 @default.
W2999328515 countsByYear W29993285152021 @default.
W2999328515 countsByYear W29993285152022 @default.
W2999328515 countsByYear W29993285152023 @default.
W2999328515 crossrefType "journal-article" @default.
W2999328515 hasAuthorship W2999328515A5040952837 @default.
W2999328515 hasAuthorship W2999328515A5054108552 @default.
W2999328515 hasAuthorship W2999328515A5068912722 @default.
W2999328515 hasAuthorship W2999328515A5070400567 @default.
W2999328515 hasAuthorship W2999328515A5073773781 @default.
W2999328515 hasBestOaLocation W29993285152 @default.
W2999328515 hasConcept C121332964 @default.
W2999328515 hasConcept C121838276 @default.
W2999328515 hasConcept C121864883 @default.
W2999328515 hasConcept C162324750 @default.
W2999328515 hasConcept C165995430 @default.
W2999328515 hasConcept C167191414 @default.
W2999328515 hasConcept C172100665 @default.
W2999328515 hasConcept C2777303404 @default.
W2999328515 hasConcept C28826006 @default.
W2999328515 hasConcept C33923547 @default.
W2999328515 hasConcept C35304006 @default.