期刊


ISSN0045-7930
刊名Computers & Fluids
参考译名计算机与流体
收藏年代1999~2024



全部

1999 2000 2001 2002 2003 2004
2005 2006 2007 2008 2009 2010
2011 2012 2013 2014 2015 2016
2017 2018 2019 2020 2021 2022
2023 2024

2023, vol.250 2023, vol.251 2023, vol.252 2023, vol.253 2023, vol.254 2023, vol.255
2023, vol.256 2023, vol.257 2023, vol.258 2023, vol.259 2023, vol.260 2023, vol.261
2023, vol.262 2023, vol.263 2023, vol.264 2023, vol.265 2023, vol.266 2023, vol.267

题名作者出版年年卷期
On the role of spectral properties of viscous flux discretization for flow simulations on marginally resolved gridsChamarthi A.S.; K. H.C.; Hoffmann N.; Bokor S.; Frankel S.H.20232023, vol.251
Extension of an exponential discretization scheme to multidimensional convection–diffusion problemsLlorente V.J.; Pascau A.20232023, vol.251
A systematic study of the grid requirements for a spectral element method solverZahtila T.; Lu W.; Chan L.; Ooi A.20232023, vol.251
Characteristic spanwise length scales of streamwise vortical structures in the wake of a circular cylinder at Re = 1500 measured via global and local approachesMellibovsky F.; Mansy R.E.; Bergada J.M.; Sarwar W.20232023, vol.251
Investigation of low-dissipation low-dispersion schemes for incompressible and compressible flows in scale-resolving simulationsCarlsson M.; Davidson L.; Peng S.-H.; Arvidson S.20232023, vol.251
Development of a hybrid Lagrange–Euler transition model for the film formation and dynamics of an impinging liquid sprayZhang Y.; Vinay G.; Poubeau A.; Hoang Q.V.20232023, vol.251
Efficient implementation of high-order WENO schemes with sharing function for solving Euler equationsLiu S.; Guo S.; Yong H.; Ni G.; Shen Y.20232023, vol.251
Sensitivity of puff dynamics and airborne droplet nuclei distribution to variations in violent expiration eventsAllahyari M.; Liu K.; Salinas J.; Balachandar S.; Zgheib N.20232023, vol.251
Fifth order AWENO finite difference scheme with adaptive numerical diffusion for Euler equationsWang Y.; Wang B.-S.; Don W.S.20232023, vol.251
Front-tracking simulation of the wetting behavior of an impinging droplet using a relaxed impermeability condition and a generalized Navier boundary conditionKawakami K.; Kita Y.; Yamamoto Y.20232023, vol.251
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