Avsarkisov, V.; Oberlack, M.; Hoyas, S. Corrigendum to: “New scaling laws for turbulent Poiseuille flow with wall transpiration”. (English) Zbl 07316273 J. Fluid Mech. 912, Paper No. E2, 2 p. (2021). MSC: 76F65 76F02 PDF BibTeX XML Cite \textit{V. Avsarkisov} et al., J. Fluid Mech. 912, Paper No. E2, 2 p. (2021; Zbl 07316273) Full Text: DOI
Niggemann, Oliver; Seifert, Udo Numerical study of the thermodynamic uncertainty relation for the KPZ-equation. (English) Zbl 07308636 J. Stat. Phys. 182, No. 2, Paper No. 25, 30 p. (2021). MSC: 82C 60J 60G PDF BibTeX XML Cite \textit{O. Niggemann} and \textit{U. Seifert}, J. Stat. Phys. 182, No. 2, Paper No. 25, 30 p. (2021; Zbl 07308636) Full Text: DOI
Hu, Rentian; Edwards, Thomas K.; Smith, Leslie M.; Stechmann, Samuel N. Initial investigations of precipitating quasi-geostrophic turbulence with phase changes. (English) Zbl 07307667 Res. Math. Sci. 8, No. 1, Paper No. 6, 25 p. (2021). MSC: 65M70 65N35 65L06 35M10 35J60 86A05 86A10 76T10 76F65 86-08 35Q86 PDF BibTeX XML Cite \textit{R. Hu} et al., Res. Math. Sci. 8, No. 1, Paper No. 6, 25 p. (2021; Zbl 07307667) Full Text: DOI
Mousavi, Seyed Mahmood; Kamali, Reza; Sotoudeh, Freshteh; Karimi, Nader; Khojasteh, Danial Large eddy simulation of pseudo shock structure in a convergent-long divergent duct. (English) Zbl 07288747 Comput. Math. Appl. 81, 823-837 (2021). MSC: 76F65 76F50 76L05 76M20 PDF BibTeX XML Cite \textit{S. M. Mousavi} et al., Comput. Math. Appl. 81, 823--837 (2021; Zbl 07288747) Full Text: DOI
Lu, Xiaoyi; Pantano, Carlos On mass conservation and solvability of the discretized variable-density zero-Mach Navier-Stokes equations. (English) Zbl 1453.76135 J. Comput. Phys. 404, Article ID 109132, 26 p. (2020). MSC: 76M20 76F65 76N06 76F80 76V05 PDF BibTeX XML Cite \textit{X. Lu} and \textit{C. Pantano}, J. Comput. Phys. 404, Article ID 109132, 26 p. (2020; Zbl 1453.76135) Full Text: DOI
Xu, Huijuan; Baroli, Davide; Di Massimo, Francesca; Quaini, Annalisa; Veneziani, Alessandro Backflow stabilization by deconvolution-based large eddy simulation modeling. (English) Zbl 1453.76237 J. Comput. Phys. 404, Article ID 109103, 21 p. (2020). MSC: 76Z05 76M10 76M20 76F65 92C35 PDF BibTeX XML Cite \textit{H. Xu} et al., J. Comput. Phys. 404, Article ID 109103, 21 p. (2020; Zbl 1453.76237) Full Text: DOI
Morgan, Brandon E.; Black, Wolfgang J. Parametric investigation of the transition to turbulence in Rayleigh-Taylor mixing. (English) Zbl 1453.76059 Physica D 402, Article ID 132223, 15 p. (2020). MSC: 76F65 76F25 76T06 76D05 PDF BibTeX XML Cite \textit{B. E. Morgan} and \textit{W. J. Black}, Physica D 402, Article ID 132223, 15 p. (2020; Zbl 1453.76059) Full Text: DOI
Pereira, Carlos A.; Vermeire, Brian C. Spectral properties of high-order element types for implicit large eddy simulation. (English) Zbl 07299273 J. Sci. Comput. 85, No. 2, Paper No. 48, 37 p. (2020). Reviewer: Marius Ghergu (Dublin) MSC: 65N50 65M22 65L06 76F65 PDF BibTeX XML Cite \textit{C. A. Pereira} and \textit{B. C. Vermeire}, J. Sci. Comput. 85, No. 2, Paper No. 48, 37 p. (2020; Zbl 07299273) Full Text: DOI
Yeung, Yu-Hong; Pothen, Alex; Crouch, Jessica AMPS: Real-time mesh cutting with augmented matrices for surgical simulations. (English) Zbl 07286033 Numer. Linear Algebra Appl. 27, No. 6, e2323, 19 p. (2020). MSC: 65F50 65F10 65F05 65Y20 PDF BibTeX XML Cite \textit{Y.-H. Yeung} et al., Numer. Linear Algebra Appl. 27, No. 6, e2323, 19 p. (2020; Zbl 07286033) Full Text: DOI
Qi, Di; Majda, Andrew J. Nonlinear interaction and turbulence transition in the limiting regimes of plasma edge turbulence. (English) Zbl 07283928 Res. Math. Sci. 7, No. 3, Paper No. 22, 32 p. (2020). MSC: 76X05 76F65 PDF BibTeX XML Cite \textit{D. Qi} and \textit{A. J. Majda}, Res. Math. Sci. 7, No. 3, Paper No. 22, 32 p. (2020; Zbl 07283928) Full Text: DOI
Labovsky, Alexander E. Approximate deconvolution with correction: a member of a new class of models for high Reynolds number flows. (English) Zbl 07267946 SIAM J. Numer. Anal. 58, No. 5, 3068-3090 (2020). MSC: 65M60 65M12 76D05 76F65 35Q35 PDF BibTeX XML Cite \textit{A. E. Labovsky}, SIAM J. Numer. Anal. 58, No. 5, 3068--3090 (2020; Zbl 07267946) Full Text: DOI
Muhammad, Nasim; Eberl, Hermann J. Two routes of transmission for Nosema infections in a honeybee population model with polyethism and time-periodic parameters can lead to drastically different qualitative model behavior. (English) Zbl 1451.92302 Commun. Nonlinear Sci. Numer. Simul. 84, Article ID 105207, 18 p. (2020). MSC: 92D30 92D25 34C25 PDF BibTeX XML Cite \textit{N. Muhammad} and \textit{H. J. Eberl}, Commun. Nonlinear Sci. Numer. Simul. 84, Article ID 105207, 18 p. (2020; Zbl 1451.92302) Full Text: DOI
An, Bo; Bergadà, J. M.; Mellibovsky, F.; Sang, W. M. New applications of numerical simulation based on lattice Boltzmann method at high Reynolds numbers. (English) Zbl 1443.76164 Comput. Math. Appl. 79, No. 6, 1718-1741 (2020). MSC: 76M28 76F65 65M75 PDF BibTeX XML Cite \textit{B. An} et al., Comput. Math. Appl. 79, No. 6, 1718--1741 (2020; Zbl 1443.76164) Full Text: DOI
Utyuzhnikov, S.; Smirnova, N. Unsteady interface boundary conditions for near-wall turbulence modeling. (English) Zbl 1443.76137 Comput. Math. Appl. 79, No. 5, 1483-1502 (2020). MSC: 76F40 76F65 PDF BibTeX XML Cite \textit{S. Utyuzhnikov} and \textit{N. Smirnova}, Comput. Math. Appl. 79, No. 5, 1483--1502 (2020; Zbl 1443.76137) Full Text: DOI
Pasquali, Andrea; Geier, Martin; Krafczyk, Manfred Near-wall treatment for the simulation of turbulent flow by the cumulant lattice Boltzmann method. (English) Zbl 1443.76183 Comput. Math. Appl. 79, No. 1, 195-212 (2020). MSC: 76M28 65Z05 76F65 PDF BibTeX XML Cite \textit{A. Pasquali} et al., Comput. Math. Appl. 79, No. 1, 195--212 (2020; Zbl 1443.76183) Full Text: DOI
Yeoh, Chin Vern; Ooi, Ean Hin; Foo, Ji Jinn Lattice-Boltzmann hydrodynamics of single-square-grid generated turbulence – a partial entropic stabilisation approach. (English) Zbl 1441.76096 Comput. Math. Appl. 80, No. 5, 1301-1326 (2020). MSC: 76M28 76F65 PDF BibTeX XML Cite \textit{C. V. Yeoh} et al., Comput. Math. Appl. 80, No. 5, 1301--1326 (2020; Zbl 1441.76096) Full Text: DOI
González, Amaru; Castillo, Ernesto; Cruchaga, Marcela A. Numerical verification of a non-residual orthogonal term-by-term stabilized finite element formulation for incompressible convective flow problems. (English) Zbl 1447.65073 Comput. Math. Appl. 80, No. 5, 1009-1028 (2020). MSC: 65M60 65M06 76D05 76F65 35B32 76M10 76M20 PDF BibTeX XML Cite \textit{A. González} et al., Comput. Math. Appl. 80, No. 5, 1009--1028 (2020; Zbl 1447.65073) Full Text: DOI
Ballarin, Francesco; Chacón Rebollo, Tomás; Delgado Ávila, Enrique; Gómez Mármol, Macarena; Rozza, Gianluigi Certified reduced basis VMS-Smagorinsky model for natural convection flow in a cavity with variable height. (English) Zbl 1447.65067 Comput. Math. Appl. 80, No. 5, 973-989 (2020). MSC: 65M60 65M06 65M15 76R10 76F65 76M10 76M20 35Q35 PDF BibTeX XML Cite \textit{F. Ballarin} et al., Comput. Math. Appl. 80, No. 5, 973--989 (2020; Zbl 1447.65067) Full Text: DOI
Treleaven, N. C. W.; Staufer, M.; Spencer, A.; Garmory, A.; Page, G. J. Application of the PODFS method to inlet turbulence generated using the digital filter technique. (English) Zbl 1440.76041 J. Comput. Phys. 415, Article ID 109541, 15 p. (2020). MSC: 76F65 76F55 62M20 76F80 76M20 PDF BibTeX XML Cite \textit{N. C. W. Treleaven} et al., J. Comput. Phys. 415, Article ID 109541, 15 p. (2020; Zbl 1440.76041) Full Text: DOI
Gamal, Bassam; Gastaldo, Laura; Latché, Jean-Claude; Veynante, Denis A second order numerical scheme for large-eddy simulation of compressible flows. (English) Zbl 07239648 Klöfkorn, Robert (ed.) et al., Finite volumes for complex applications IX – methods, theoretical aspects, examples. FVCA 9, Bergen, Norway, June 15–19, 2020. In 2 volumes. Volume I and II. Cham: Springer (ISBN 978-3-030-43650-6/hbk; 978-3-030-43651-3/ebook). Springer Proceedings in Mathematics & Statistics 323, 635-643 (2020). MSC: 65N08 65M06 76F65 76N06 PDF BibTeX XML Cite \textit{B. Gamal} et al., in: Finite volumes for complex applications IX -- methods, theoretical aspects, examples. FVCA 9, Bergen, Norway, June 15--19, 2020. In 2 volumes. Volume I and II. Cham: Springer. 635--643 (2020; Zbl 07239648) Full Text: DOI
Lee, Yoonsang Parameter estimation in the stochastic superparameterization of two-layer quasigeostrophic flows. Estimation of subgrid-scale modeling parameters in the stochastic superparameterization of two-layer quasigeostrophic turbulence. (English) Zbl 1449.76029 Res. Math. Sci. 7, No. 3, Paper No. 14, 21 p. (2020). MSC: 76F55 76F65 76M20 86A10 86-08 76U60 PDF BibTeX XML Cite \textit{Y. Lee}, Res. Math. Sci. 7, No. 3, Paper No. 14, 21 p. (2020; Zbl 1449.76029) Full Text: DOI
Motheau, Emmanuel; Wakefield, John Investigation of finite-volume methods to capture shocks and turbulence spectra in compressible flows. (English) Zbl 1444.35012 Commun. Appl. Math. Comput. Sci. 15, No. 1, 1-36 (2020). MSC: 35A35 35L67 65N08 76F05 76F50 76F65 PDF BibTeX XML Cite \textit{E. Motheau} and \textit{J. Wakefield}, Commun. Appl. Math. Comput. Sci. 15, No. 1, 1--36 (2020; Zbl 1444.35012) Full Text: DOI
Wang, Lai; Gobbert, Matthias K.; Yu, Meilin A dynamically load-balanced parallel \(p\)-adaptive implicit high-order flux reconstruction method for under-resolved turbulence simulation. (English) Zbl 1437.76035 J. Comput. Phys. 417, Article ID 109581, 20 p. (2020). MSC: 76M20 76N06 76F65 PDF BibTeX XML Cite \textit{L. Wang} et al., J. Comput. Phys. 417, Article ID 109581, 20 p. (2020; Zbl 1437.76035) Full Text: DOI
Belding, Jeffrey; Neda, Monika; Pahlevani, Fran Computational study of the time relaxation model with high order deconvolution operator. (English) Zbl 1447.35240 Results Appl. Math. 8, Article ID 100111, 15 p. (2020). MSC: 35Q30 76F65 76F40 76D05 76M10 76M20 76M30 65M60 65N30 65M06 35B65 PDF BibTeX XML Cite \textit{J. Belding} et al., Results Appl. Math. 8, Article ID 100111, 15 p. (2020; Zbl 1447.35240) Full Text: DOI
Neda, Monika; Rivière, Béatrice A discontinuous Galerkin method for the Stolz-Adams approximate deconvolution model for turbulent flows. (English) Zbl 1448.76096 Results Appl. Math. 8, Article ID 100093, 13 p. (2020). MSC: 76F65 76M10 76M60 65M15 PDF BibTeX XML Cite \textit{M. Neda} and \textit{B. Rivière}, Results Appl. Math. 8, Article ID 100093, 13 p. (2020; Zbl 1448.76096) Full Text: DOI
Wood, Brian D.; He, Xiaoliang; Apte, Sourabh V. Modeling turbulent flows in porous media. (English) Zbl 1439.76162 Davis, Stephen H. (ed.) et al., Annual review of fluid mechanics. Vol. 52. Palo Alto, CA: Annual Reviews. Annu. Rev. Fluid Mech. 52, 171-203 (2020). MSC: 76S05 76F65 76-02 PDF BibTeX XML Cite \textit{B. D. Wood} et al., Annu. Rev. Fluid Mech. 52, 171--203 (2020; Zbl 1439.76162) Full Text: DOI
Dupuy, Dorian; Toutant, Adrien; Bataille, Françoise Analysis of artificial pressure equations in numerical simulations of a turbulent channel flow. (English) Zbl 1436.76013 J. Comput. Phys. 411, Article ID 109407, 16 p. (2020). MSC: 76F65 76D05 PDF BibTeX XML Cite \textit{D. Dupuy} et al., J. Comput. Phys. 411, Article ID 109407, 16 p. (2020; Zbl 1436.76013) Full Text: DOI
Lecrivain, Gregory; Pacheco Grein, Taisa Beatriz; Yamamoto, Ryoichi; Hampel, Uwe; Taniguchi, Takashi Eulerian/Lagrangian formulation for the elasto-capillary deformation of a flexible fibre. (English) Zbl 1435.76024 J. Comput. Phys. 409, Article ID 109324, 16 p. (2020). MSC: 76D45 74F10 PDF BibTeX XML Cite \textit{G. Lecrivain} et al., J. Comput. Phys. 409, Article ID 109324, 16 p. (2020; Zbl 1435.76024) Full Text: DOI
Pereira, Carlos A.; Vermeire, Brian C. Fully-discrete analysis of high-order spatial discretizations with optimal explicit Runge-Kutta methods. (English) Zbl 1442.65221 J. Sci. Comput. 83, No. 3, Paper No. 63, 35 p. (2020). MSC: 65M22 65L06 65N06 76F65 35Q35 PDF BibTeX XML Cite \textit{C. A. Pereira} and \textit{B. C. Vermeire}, J. Sci. Comput. 83, No. 3, Paper No. 63, 35 p. (2020; Zbl 1442.65221) Full Text: DOI
Ritos, Konstantinos; Drikakis, Dimitris; Kokkinakis, Ioannis W.; Spottswood, S. Michael Computational aeroacoustics beneath high speed transitional and turbulent boundary layers. (English) Zbl 07200205 Comput. Fluids 203, Article ID 104520, 9 p. (2020). MSC: 76 PDF BibTeX XML Cite \textit{K. Ritos} et al., Comput. Fluids 203, Article ID 104520, 9 p. (2020; Zbl 07200205) Full Text: DOI
D’Alessandro, Valerio; Falone, Matteo; Ricci, Renato Direct computation of aeroacoustic fields in laminar flows: solver development and assessment of wall temperature effects on radiated sound around bluff bodies. (English) Zbl 07200204 Comput. Fluids 203, Article ID 104517, 20 p. (2020). MSC: 76 PDF BibTeX XML Cite \textit{V. D'Alessandro} et al., Comput. Fluids 203, Article ID 104517, 20 p. (2020; Zbl 07200204) Full Text: DOI
Trojak, Will; Watson, Rob; Scillitoe, Ashley; Tucker, Paul G. Effect of mesh quality on flux reconstruction in multi-dimensions. (English) Zbl 1437.65146 J. Sci. Comput. 82, No. 3, Paper No. 77, 36 p. (2020). MSC: 65M60 65M08 65T99 76F65 76M10 65M50 PDF BibTeX XML Cite \textit{W. Trojak} et al., J. Sci. Comput. 82, No. 3, Paper No. 77, 36 p. (2020; Zbl 1437.65146) Full Text: DOI
Guo, Qilong; Sun, Dong; Li, Chen; Liu, Pengxin; Zhang, Hanxin A new discontinuity indicator for hybrid WENO schemes. (English) Zbl 1437.65097 J. Sci. Comput. 83, No. 2, Paper No. 28, 33 p. (2020). MSC: 65M06 76M20 76N06 76F65 35Q35 PDF BibTeX XML Cite \textit{Q. Guo} et al., J. Sci. Comput. 83, No. 2, Paper No. 28, 33 p. (2020; Zbl 1437.65097) Full Text: DOI
Rodríguez, J. M.; Taboada-Vázquez, R. Numerical behaviour of a new LES model with nonlinear viscosity. (English) Zbl 1434.76029 J. Comput. Appl. Math. 377, Article ID 112868, 12 p. (2020). MSC: 76D05 76F65 35Q30 65M60 PDF BibTeX XML Cite \textit{J. M. Rodríguez} and \textit{R. Taboada-Vázquez}, J. Comput. Appl. Math. 377, Article ID 112868, 12 p. (2020; Zbl 1434.76029) Full Text: DOI
Cheng, H. Y.; Bai, X. R.; Long, X. P.; Ji, B.; Peng, X. X.; Farhat, M. Large eddy simulation of the tip-leakage cavitating flow with an insight on how cavitation influences vorticity and turbulence. (English) Zbl 1450.76017 Appl. Math. Modelling 77, Part 1, 788-809 (2020). MSC: 76F65 76F25 76F55 PDF BibTeX XML Cite \textit{H. Y. Cheng} et al., Appl. Math. Modelling 77, Part 1, 788--809 (2020; Zbl 1450.76017) Full Text: DOI
Deng, Xi; Jiang, Zhen-Hua; Xiao, Feng; Yan, Chao Implicit large eddy simulation of compressible turbulence flow with \(\mathrm{P}_n\mathrm{T}_m-\mathrm{BVD}\) scheme. (English) Zbl 1450.76018 Appl. Math. Modelling 77, Part 1, 17-31 (2020). MSC: 76F65 76M12 76F50 76L05 PDF BibTeX XML Cite \textit{X. Deng} et al., Appl. Math. Modelling 77, Part 1, 17--31 (2020; Zbl 1450.76018) Full Text: DOI
Amrouche, Cherif; Berselli, Luigi C.; Lewandowski, Roger; Nguyen, Dinh Duong Turbulent flows as generalized Kelvin-Voigt materials: modeling and analysis. (English) Zbl 1434.76027 Nonlinear Anal., Theory Methods Appl., Ser. A, Theory Methods 196, Article ID 111790, 24 p. (2020). MSC: 76D05 35Q30 76F65 76D03 PDF BibTeX XML Cite \textit{C. Amrouche} et al., Nonlinear Anal., Theory Methods Appl., Ser. A, Theory Methods 196, Article ID 111790, 24 p. (2020; Zbl 1434.76027) Full Text: DOI
Chorfi, Nejmeddine; Abdelwahed, Mohamed; Berselli, Luigi C. On the analysis of a geometrically selective turbulence model. (English) Zbl 1437.35532 Adv. Nonlinear Anal. 9, 1402-1419 (2020). MSC: 35Q30 76F65 76D03 76D05 35B65 35D30 35D35 35A15 35B45 PDF BibTeX XML Cite \textit{N. Chorfi} et al., Adv. Nonlinear Anal. 9, 1402--1419 (2020; Zbl 1437.35532) Full Text: DOI
Fjordholm, U. S.; Lye, K.; Mishra, S.; Weber, F. Statistical solutions of hyperbolic systems of conservation laws: numerical approximation. (English) Zbl 1436.65121 Math. Models Methods Appl. Sci. 30, No. 3, 539-609 (2020). MSC: 65M08 65C05 65C30 35L65 76N10 76F65 PDF BibTeX XML Cite \textit{U. S. Fjordholm} et al., Math. Models Methods Appl. Sci. 30, No. 3, 539--609 (2020; Zbl 1436.65121) Full Text: DOI
Maulik, Romit; San, Omer Numerical assessments of a parametric implicit large eddy simulation model. (English) Zbl 1433.76058 J. Comput. Appl. Math. 376, Article ID 112866, 20 p. (2020). MSC: 76F65 PDF BibTeX XML Cite \textit{R. Maulik} and \textit{O. San}, J. Comput. Appl. Math. 376, Article ID 112866, 20 p. (2020; Zbl 1433.76058) Full Text: DOI
Patruno, L.; de Miranda, S. Unsteady inflow conditions: a variationally based solution to the insurgence of pressure fluctuations. (English) Zbl 1436.76015 Comput. Methods Appl. Mech. Eng. 363, Article ID 112894, 16 p. (2020). MSC: 76F65 76M30 76F40 76F10 PDF BibTeX XML Cite \textit{L. Patruno} and \textit{S. de Miranda}, Comput. Methods Appl. Mech. Eng. 363, Article ID 112894, 16 p. (2020; Zbl 1436.76015) Full Text: DOI
Navah, Farshad; de la Llave Plata, Marta; Couaillier, Vincent A high-order multiscale approach to turbulence for compact nodal schemes. (English) Zbl 1436.76014 Comput. Methods Appl. Mech. Eng. 363, Article ID 112885, 26 p. (2020). MSC: 76F65 PDF BibTeX XML Cite \textit{F. Navah} et al., Comput. Methods Appl. Mech. Eng. 363, Article ID 112885, 26 p. (2020; Zbl 1436.76014) Full Text: DOI
Chen, Linfeng; Hulshoff, Steven J.; Wang, Yitao 2D residual-based LES of flow around a pipeline close to a flat seabed. (English) Zbl 1436.76012 Comput. Methods Appl. Mech. Eng. 363, Article ID 112788, 20 p. (2020). MSC: 76F65 76M30 76D05 76M10 PDF BibTeX XML Cite \textit{L. Chen} et al., Comput. Methods Appl. Mech. Eng. 363, Article ID 112788, 20 p. (2020; Zbl 1436.76012) Full Text: DOI
Flandoli, Franco; Luo, Dejun Energy conditional measures and 2D turbulence. (English) Zbl 1432.76108 J. Math. Phys. 61, No. 1, 013101, 22 p. (2020). MSC: 76F20 35Q31 76F65 PDF BibTeX XML Cite \textit{F. Flandoli} and \textit{D. Luo}, J. Math. Phys. 61, No. 1, 013101, 22 p. (2020; Zbl 1432.76108) Full Text: DOI
Matharu, Pritpal; Protas, Bartosz Optimal closures in a simple model for turbulent flows. (English) Zbl 1430.76313 SIAM J. Sci. Comput. 42, No. 1, B250-B272 (2020). MSC: 76F65 35Q35 76F02 65K10 35Q93 PDF BibTeX XML Cite \textit{P. Matharu} and \textit{B. Protas}, SIAM J. Sci. Comput. 42, No. 1, B250--B272 (2020; Zbl 1430.76313) Full Text: DOI
Imtiaz, Haroon; Akhtar, Imran Nonlinear closure modeling in reduced order models for turbulent flows: a dynamical system approach. (English) Zbl 1430.76237 Nonlinear Dyn. 99, No. 1, 479-494 (2020). MSC: 76F20 76F65 PDF BibTeX XML Cite \textit{H. Imtiaz} and \textit{I. Akhtar}, Nonlinear Dyn. 99, No. 1, 479--494 (2020; Zbl 1430.76237) Full Text: DOI
Kalogirou, A.; Cimpeanu, R.; Blyth, M. G. Asymptotic modelling and direct numerical simulations of multilayer pressure-driven flows. (English) Zbl 07167136 Eur. J. Mech., B, Fluids 80, 195-205 (2020). MSC: 76 PDF BibTeX XML Cite \textit{A. Kalogirou} et al., Eur. J. Mech., B, Fluids 80, 195--205 (2020; Zbl 07167136) Full Text: DOI
Yokoi, Nobumitsu Turbulence, transport and reconnection. (English) Zbl 1429.76056 MacTaggart, David (ed.) et al., Topics in magnetohydrodynamic topology, reconnection and stability theory. Cham: Springer. CISM Courses and Lectures 591, 177-265 (2020). MSC: 76F02 76F65 76W05 PDF BibTeX XML Cite \textit{N. Yokoi}, in: Topics in magnetohydrodynamic topology, reconnection and stability theory. Cham: Springer. 177--265 (2020; Zbl 1429.76056) Full Text: DOI
Villa Ortiz, Agustín; Koloszar, Lilla Application of numerical transition control method to enhance turbulence in a natural convection boundary layer over a vertical heated plate. (English) Zbl 07163723 Comput. Fluids 199, Article ID 104417, 11 p. (2020). MSC: 76F06 76F35 76F40 76F65 76F70 76M12 76R10 PDF BibTeX XML Cite \textit{A. Villa Ortiz} and \textit{L. Koloszar}, Comput. Fluids 199, Article ID 104417, 11 p. (2020; Zbl 07163723) Full Text: DOI
Nagata, Ryosuke; Watanabe, Tomoaki; Nagata, Koji; da Silva, Carlos B. Triple decomposition of velocity gradient tensor in homogeneous isotropic turbulence. (English) Zbl 07157286 Comput. Fluids 198, Article ID 104389, 9 p. (2020). MSC: 76 PDF BibTeX XML Cite \textit{R. Nagata} et al., Comput. Fluids 198, Article ID 104389, 9 p. (2020; Zbl 07157286) Full Text: DOI
Sun, Dong; Guo, Qilong; Li, Chen; Liu, Pengxin Assessment of optimized symmetric fourth-order weighted essentially non-oscillatory scheme in direct numerical simulation of compressible turbulence. (English) Zbl 07149135 Comput. Fluids 197, Article ID 104383, 16 p. (2020). MSC: 76 PDF BibTeX XML Cite \textit{D. Sun} et al., Comput. Fluids 197, Article ID 104383, 16 p. (2020; Zbl 07149135) Full Text: DOI
Kang, Kean Lee; Yeo, K. S. Combined effects of amplitude, frequency and bandwidth on wavepackets in laminar turbulent transition. (English) Zbl 07149126 Comput. Fluids 197, Article ID 104358, 15 p. (2020). MSC: 76 PDF BibTeX XML Cite \textit{K. L. Kang} and \textit{K. S. Yeo}, Comput. Fluids 197, Article ID 104358, 15 p. (2020; Zbl 07149126) Full Text: DOI
Ricciardi, Túlio R.; Arias-Ramirez, Walter; Wolf, William R. On secondary tones arising in trailing-edge noise at moderate Reynolds numbers. (English) Zbl 07148211 Eur. J. Mech., B, Fluids 79, 54-66 (2020). MSC: 76 PDF BibTeX XML Cite \textit{T. R. Ricciardi} et al., Eur. J. Mech., B, Fluids 79, 54--66 (2020; Zbl 07148211) Full Text: DOI
Yao, Jie; Hussain, Fazle A physical model of turbulence cascade via vortex reconnection sequence and avalanche. (English) Zbl 1430.76323 J. Fluid Mech. 883, A51, 36 p. (2020). MSC: 76F65 76D17 PDF BibTeX XML Cite \textit{J. Yao} and \textit{F. Hussain}, J. Fluid Mech. 883, A51, 36 p. (2020; Zbl 1430.76323) Full Text: DOI
Wu, Wen; Meneveau, Charles; Mittal, Rajat Spatio-temporal dynamics of turbulent separation bubbles. (English) Zbl 1430.76286 J. Fluid Mech. 883, A45, 37 p. (2020). MSC: 76F40 76F65 PDF BibTeX XML Cite \textit{W. Wu} et al., J. Fluid Mech. 883, A45, 37 p. (2020; Zbl 1430.76286) Full Text: DOI
Zhu, Chenlin; Yu, Zhaosheng; Shao, Xueming; Deng, Jian Interface-resolved numerical simulations of particle-laden turbulent flows in a vertical channel filled with Bingham fluids. (English) Zbl 1430.76474 J. Fluid Mech. 883, A43, 29 p. (2020). MSC: 76T20 76F65 76F25 PDF BibTeX XML Cite \textit{C. Zhu} et al., J. Fluid Mech. 883, A43, 29 p. (2020; Zbl 1430.76474) Full Text: DOI
Howland, M. F.; Ghate, A. S.; Lele, S. K. Influence of the geostrophic wind direction on the atmospheric boundary layer flow. (English) Zbl 1430.76269 J. Fluid Mech. 883, A39, 25 p. (2020). MSC: 76F40 86A10 76F65 PDF BibTeX XML Cite \textit{M. F. Howland} et al., J. Fluid Mech. 883, A39, 25 p. (2020; Zbl 1430.76269) Full Text: DOI
Shete, Kedar Prashant; de Bruyn Kops, Stephen M. Area of scalar isosurfaces in homogeneous isotropic turbulence as a function of Reynolds and Schmidt numbers. (English) Zbl 1430.76319 J. Fluid Mech. 883, A38, 22 p. (2020). MSC: 76F65 76F05 PDF BibTeX XML Cite \textit{K. P. Shete} and \textit{S. M. de Bruyn Kops}, J. Fluid Mech. 883, A38, 22 p. (2020; Zbl 1430.76319) Full Text: DOI
Serra, Mattia; Crouzat, Seán; Simon, Gaël; Vétel, Jérôme; Haller, George Material spike formation in highly unsteady separated flows. (English) Zbl 1430.76280 J. Fluid Mech. 883, A30, 27 p. (2020). MSC: 76F40 76F65 37N10 PDF BibTeX XML Cite \textit{M. Serra} et al., J. Fluid Mech. 883, A30, 27 p. (2020; Zbl 1430.76280) Full Text: DOI
Bae, H. Jane; Dawson, Scott T. M.; Mckeon, Beverley J. Resolvent-based study of compressibility effects on supersonic turbulent boundary layers. (English) Zbl 1430.76261 J. Fluid Mech. 883, A29, 32 p. (2020). MSC: 76F40 76F50 76F65 PDF BibTeX XML Cite \textit{H. J. Bae} et al., J. Fluid Mech. 883, A29, 32 p. (2020; Zbl 1430.76261) Full Text: DOI
Johnson, Perry L.; Bassenne, Maxime; Moin, Parviz Turbophoresis of small inertial particles: theoretical considerations and application to wall-modelled large-eddy simulations. (English) Zbl 1430.76309 J. Fluid Mech. 883, A27, 38 p. (2020). MSC: 76F65 76F10 PDF BibTeX XML Cite \textit{P. L. Johnson} et al., J. Fluid Mech. 883, A27, 38 p. (2020; Zbl 1430.76309) Full Text: DOI
Lozano-Durán, Adrián; Giometto, Marco G.; Park, George Ilhwan; Moin, Parviz Non-equilibrium three-dimensional boundary layers at moderate Reynolds numbers. (English) Zbl 1430.76275 J. Fluid Mech. 883, A20, 42 p. (2020). MSC: 76F40 76F70 76F65 PDF BibTeX XML Cite \textit{A. Lozano-Durán} et al., J. Fluid Mech. 883, A20, 42 p. (2020; Zbl 1430.76275) Full Text: DOI
Cerbus, R. T.; Sakakibara, J.; Gioia, G.; Chakraborty, P. The turbulent flow in a slug: a re-examination. (English) Zbl 1430.76216 J. Fluid Mech. 883, A13, 17 p. (2020). MSC: 76F06 76F65 PDF BibTeX XML Cite \textit{R. T. Cerbus} et al., J. Fluid Mech. 883, A13, 17 p. (2020; Zbl 1430.76216) Full Text: DOI
Joseph, Liselle A.; Molinaro, Nicholas J.; Devenport, William J.; Meyers, Timothy W. Characteristics of the pressure fluctuations generated in turbulent boundary layers over rough surfaces. (English) Zbl 1430.76271 J. Fluid Mech. 883, A3, 42 p. (2020). MSC: 76F40 76F65 PDF BibTeX XML Cite \textit{L. A. Joseph} et al., J. Fluid Mech. 883, A3, 42 p. (2020; Zbl 1430.76271) Full Text: DOI
Xiao, Xiangkai; Song, Baofang The growth mechanism of turbulent bands in channel flow at low Reynolds numbers. (English) Zbl 1430.76322 J. Fluid Mech. 883, R1, 14 p. (2020). MSC: 76F65 76F06 PDF BibTeX XML Cite \textit{X. Xiao} and \textit{B. Song}, J. Fluid Mech. 883, R1, 14 p. (2020; Zbl 1430.76322) Full Text: DOI
Kim, Junhyuk; Lee, Changhoon Prediction of turbulent heat transfer using convolutional neural networks. (English) Zbl 1430.76246 J. Fluid Mech. 882, A18, 37 p. (2020). MSC: 76F25 76F65 PDF BibTeX XML Cite \textit{J. Kim} and \textit{C. Lee}, J. Fluid Mech. 882, A18, 37 p. (2020; Zbl 1430.76246) Full Text: DOI
Lozano-Durán, Adrián; Bae, H. Jane; Encinar, Miguel P. Causality of energy-containing eddies in wall turbulence. (English) Zbl 1430.76274 J. Fluid Mech. 882, A2, 23 p. (2020). MSC: 76F40 76F65 PDF BibTeX XML Cite \textit{A. Lozano-Durán} et al., J. Fluid Mech. 882, A2, 23 p. (2020; Zbl 1430.76274) Full Text: DOI
Parker, D. A.; Burridge, H. C.; Partridge, J. L.; Linden, P. F. A comparison of entrainment in turbulent line plumes adjacent to and distant from a vertical wall. (English) Zbl 1430.76256 J. Fluid Mech. 882, A4, 36 p. (2020). MSC: 76F35 76F65 PDF BibTeX XML Cite \textit{D. A. Parker} et al., J. Fluid Mech. 882, A4, 36 p. (2020; Zbl 1430.76256) Full Text: DOI
Maurya, Praveen K.; Rajpoot, Manoj K.; Yadav, Vivek S. Higher-order optimized hybrid Robert-Asselin type time filters. (English) Zbl 1453.65285 J. Comput. Phys. 399, Article ID 108941, 19 p. (2019). MSC: 65M22 65Z05 76D05 PDF BibTeX XML Cite \textit{P. K. Maurya} et al., J. Comput. Phys. 399, Article ID 108941, 19 p. (2019; Zbl 1453.65285) Full Text: DOI
Muscat, Laurent; Puigt, Guillaume; Montagnac, Marc; Brenner, Pierre A coupled implicit-explicit time integration method for compressible unsteady flows. (English) Zbl 1453.76104 J. Comput. Phys. 398, Article ID 108883, 37 p. (2019). MSC: 76M12 76N06 65M08 76F65 PDF BibTeX XML Cite \textit{L. Muscat} et al., J. Comput. Phys. 398, Article ID 108883, 37 p. (2019; Zbl 1453.76104) Full Text: DOI
Mons, Vincent; Wang, Qi; Zaki, Tamer A. Kriging-enhanced ensemble variational data assimilation for scalar-source identification in turbulent environments. (English) Zbl 1453.76176 J. Comput. Phys. 398, Article ID 108856, 28 p. (2019). MSC: 76M30 76F55 76F65 PDF BibTeX XML Cite \textit{V. Mons} et al., J. Comput. Phys. 398, Article ID 108856, 28 p. (2019; Zbl 1453.76176) Full Text: DOI
Jeanmasson, G.; Mary, I.; Mieussens, L. On some explicit local time stepping finite volume schemes for CFD. (English) Zbl 1453.76098 J. Comput. Phys. 397, Article ID 108818, 27 p. (2019). MSC: 76M12 76F65 35L65 65M08 PDF BibTeX XML Cite \textit{G. Jeanmasson} et al., J. Comput. Phys. 397, Article ID 108818, 27 p. (2019; Zbl 1453.76098) Full Text: DOI
Horne, Wyatt James; Mahesh, Krishnan A massively-parallel, unstructured overset method to simulate moving bodies in turbulent flows. (English) Zbl 1453.76058 J. Comput. Phys. 397, Article ID 108790, 24 p. (2019). MSC: 76F65 76M12 65M08 76T20 65Y05 65Z05 PDF BibTeX XML Cite \textit{W. J. Horne} and \textit{K. Mahesh}, J. Comput. Phys. 397, Article ID 108790, 24 p. (2019; Zbl 1453.76058) Full Text: DOI
Picella, Francesco; Bucci, Michele Alessandro; Cherubini, Stefania; Robinet, Jean-Christophe A synthetic forcing to trigger laminar-turbulent transition in parallel wall bounded flows via receptivity. (English) Zbl 1452.76071 J. Comput. Phys. 393, 92-116 (2019). MSC: 76F06 76D05 76F65 PDF BibTeX XML Cite \textit{F. Picella} et al., J. Comput. Phys. 393, 92--116 (2019; Zbl 1452.76071) Full Text: DOI
Ong, Chia Rui; Miura, Hiroaki Immersed boundary method with irrotational discrete delta vector for droplet simulations of large density ratio. (English) Zbl 1452.76248 J. Comput. Phys. 391, 280-302 (2019). MSC: 76T10 76M12 86A10 76D05 PDF BibTeX XML Cite \textit{C. R. Ong} and \textit{H. Miura}, J. Comput. Phys. 391, 280--302 (2019; Zbl 1452.76248) Full Text: DOI
Capizzano, Francesco; Alterio, Luigi; Russo, Serena; de Nicola, Carlo A hybrid RANS-LES Cartesian method based on a skew-symmetric convective operator. (English) Zbl 1452.76072 J. Comput. Phys. 390, 359-379 (2019). MSC: 76F65 76M20 76M12 76N06 PDF BibTeX XML Cite \textit{F. Capizzano} et al., J. Comput. Phys. 390, 359--379 (2019; Zbl 1452.76072) Full Text: DOI
Jiang, Maoqiang; Liu, Zhaohui A boundary thickening-based direct forcing immersed boundary method for fully resolved simulation of particle-laden flows. (English) Zbl 1452.76176 J. Comput. Phys. 390, 203-231 (2019). MSC: 76M28 76T20 76D05 PDF BibTeX XML Cite \textit{M. Jiang} and \textit{Z. Liu}, J. Comput. Phys. 390, 203--231 (2019; Zbl 1452.76176) Full Text: DOI
Lehmkuhl, O.; Houzeaux, G.; Owen, H.; Chrysokentis, G.; Rodriguez, I. A low-dissipation finite element scheme for scale resolving simulations of turbulent flows. (English) Zbl 1452.76091 J. Comput. Phys. 390, 51-65 (2019). MSC: 76M10 76F65 76D05 65M60 65Z05 PDF BibTeX XML Cite \textit{O. Lehmkuhl} et al., J. Comput. Phys. 390, 51--65 (2019; Zbl 1452.76091) Full Text: DOI
Xie, Chen; Zhu, Minming; Chen, Yiliang Large eddy simulation on the wake of a circular disk at a high Reynolds number. (Chinese. English summary) Zbl 07295879 J. Univ. Sci. Technol. China 49, No. 11, 930-939 (2019). MSC: 76F65 PDF BibTeX XML Cite \textit{C. Xie} et al., J. Univ. Sci. Technol. China 49, No. 11, 930--939 (2019; Zbl 07295879) Full Text: DOI
Lav, Chitrarth; Sandberg, Richard D.; Philip, Jimmy A framework to develop data-driven turbulence models for flows with organised unsteadiness. (English) Zbl 1451.76060 J. Comput. Phys. 383, 148-165 (2019). MSC: 76F55 76D05 76F65 68T07 PDF BibTeX XML Cite \textit{C. Lav} et al., J. Comput. Phys. 383, 148--165 (2019; Zbl 1451.76060) Full Text: DOI
Vermeire, B. C.; Loppi, N. A.; Vincent, P. E. Optimal Runge-Kutta schemes for pseudo time-stepping with high-order unstructured methods. (English) Zbl 1451.65112 J. Comput. Phys. 383, 55-71 (2019). MSC: 65M06 65M60 65L06 76D05 76F65 PDF BibTeX XML Cite \textit{B. C. Vermeire} et al., J. Comput. Phys. 383, 55--71 (2019; Zbl 1451.65112) Full Text: DOI
Wang, Shizhao; Vanella, Marcos; Balaras, Elias A hydrodynamic stress model for simulating turbulence/particle interactions with immersed boundary methods. (English) Zbl 1451.76087 J. Comput. Phys. 382, 240-263 (2019). MSC: 76M20 76F65 76T20 76D05 70E55 PDF BibTeX XML Cite \textit{S. Wang} et al., J. Comput. Phys. 382, 240--263 (2019; Zbl 1451.76087) Full Text: DOI
Abalakin, I. V.; Duben, A. P.; Zhdanova, N. S.; Kozubskaya, T. K.; Kudryavtseva, L. N. Immersed boundary method on deformable unstructured meshes for airfoil aeroacoustic simulation. (English. Russian original) Zbl 07264222 Comput. Math. Math. Phys. 59, No. 12, 1982-1993 (2019); translation from Zh. Vychisl. Mat. Mat. Fiz. 59, No. 12, 2046-2059 (2019). MSC: 76F65 76Q05 76F50 74F10 PDF BibTeX XML Cite \textit{I. V. Abalakin} et al., Comput. Math. Math. Phys. 59, No. 12, 1982--1993 (2019; Zbl 07264222); translation from Zh. Vychisl. Mat. Mat. Fiz. 59, No. 12, 2046--2059 (2019) Full Text: DOI
Aguirre-López, Mario A.; Hueyotl-Zahuantitla, Filiberto; Morales-Castillo, Javier; Escalera Santos, Gerardo J.; Almaguer, F.-Javier Simulating the flow around a baseball: study of a 2D-cylinder with a single bump. (English) Zbl 1443.76143 Comput. Math. Appl. 78, No. 9, 3105-3116 (2019). MSC: 76G25 65Z05 PDF BibTeX XML Cite \textit{M. A. Aguirre-López} et al., Comput. Math. Appl. 78, No. 9, 3105--3116 (2019; Zbl 1443.76143) Full Text: DOI
Suga, K.; Kuwata, Y.; Takashima, K.; Chikasue, R. Corrigendum to “A D3Q27 multiple-relaxation-time lattice Boltzmann method for turbulent flows”. (English) Zbl 07254686 Comput. Math. Appl. 78, No. 1, 254-256 (2019). MSC: 76M28 76F65 PDF BibTeX XML Cite \textit{K. Suga} et al., Comput. Math. Appl. 78, No. 1, 254--256 (2019; Zbl 07254686) Full Text: DOI
Zheng, Yong-Lai; Liu, Don; Han, Hui-Li; Ferdows, Mohammad Spectral element simulations of interactive particles in a fluid. (English) Zbl 1442.76127 Comput. Math. Appl. 77, No. 8, 2029-2050 (2019). MSC: 76T20 76D05 65M70 PDF BibTeX XML Cite \textit{Y.-L. Zheng} et al., Comput. Math. Appl. 77, No. 8, 2029--2050 (2019; Zbl 1442.76127) Full Text: DOI
Schroeder, Philipp W.; John, Volker; Lederer, Philip L.; Lehrenfeld, Christoph; Lube, Gert; Schöberl, Joachim On reference solutions and the sensitivity of the 2D Kelvin-Helmholtz instability problem. (English) Zbl 1442.76050 Comput. Math. Appl. 77, No. 4, 1010-1028 (2019). MSC: 76D17 76D05 76E20 76F20 76F65 76M10 PDF BibTeX XML Cite \textit{P. W. Schroeder} et al., Comput. Math. Appl. 77, No. 4, 1010--1028 (2019; Zbl 1442.76050) Full Text: DOI
Chatelain, Yohan; Petit, Eric; de Oliveira Castro, Pablo; Lartigue, Ghislain; Defour, David Automatic exploration of reduced floating-point representations in iterative methods. (English) Zbl 1452.65056 Yahyapour, Ramin (ed.), Euro-Par 2019: parallel processing. 25th international conference on parallel and distributed computing, Göttingen, Germany, August 26–30, 2019. Proceedings. Cham: Springer. Lect. Notes Comput. Sci. 11725, 481-494 (2019). MSC: 65F10 65N22 65Y05 76F65 PDF BibTeX XML Cite \textit{Y. Chatelain} et al., Lect. Notes Comput. Sci. 11725, 481--494 (2019; Zbl 1452.65056) Full Text: DOI
Bosnyakov, S. M.; Duben, A. P.; Zheltovodov, A. A.; Kozubskaya, T. K.; Matyash, S. V.; Mikhaĭlov, S. V. Numerical simulation of supersonic separated flow over inclined backward-facing step using RANS and LES methods. (Russian. English summary) Zbl 1448.76095 Mat. Model. 31, No. 11, 3-20 (2019). MSC: 76F65 76J20 76L05 PDF BibTeX XML Cite \textit{S. M. Bosnyakov} et al., Mat. Model. 31, No. 11, 3--20 (2019; Zbl 1448.76095) Full Text: DOI MNR
Lyubimov, D. A. Analysis by RANS/ILES method the influence of variable heat capacity on the characteristics of pressure pulsations in a high-speed air intake. (Russian. English summary) Zbl 1450.76019 Mat. Model. 31, No. 10, 72-86 (2019). MSC: 76F65 76N15 80A19 PDF BibTeX XML Cite \textit{D. A. Lyubimov}, Mat. Model. 31, No. 10, 72--86 (2019; Zbl 1450.76019) Full Text: DOI MNR
Alexandrov, A. V.; Dorodnitsyn, L. W.; Duben’, A. P. Generation of three-dimensional homogeneous isotropic turbulent velocity fields based on the randomized spectral method. (Russian. English summary) Zbl 07205880 Mat. Model. 31, No. 10, 49-62 (2019). MSC: 76F05 76F55 76F65 76M22 76M35 PDF BibTeX XML Cite \textit{A. V. Alexandrov} et al., Mat. Model. 31, No. 10, 49--62 (2019; Zbl 07205880) Full Text: DOI MNR
Ayupov, R. S.; Benderskiĭ, L. A.; Lyubimov, D. A. Study of temperature field non-uniformity influence on pressure pulsations in inlet duct using RANS/ILES-method. (Russian. English summary) Zbl 1444.76062 Mat. Model. 31, No. 10, 35-48 (2019). MSC: 76F65 76F25 76F50 76J20 76Q05 80A19 PDF BibTeX XML Cite \textit{R. S. Ayupov} et al., Mat. Model. 31, No. 10, 35--48 (2019; Zbl 1444.76062) Full Text: DOI MNR
Epikhin, A. S. Numerical schemes and hybrid approach for simulation of unsteady turbulent flows. (Russian. English summary) Zbl 1447.76017 Mat. Model. 31, No. 5, 39-55 (2019). MSC: 76F65 76M20 76-02 PDF BibTeX XML Cite \textit{A. S. Epikhin}, Mat. Model. 31, No. 5, 39--55 (2019; Zbl 1447.76017) Full Text: DOI MNR
Krasheninnikov, S. Yu.; Semenev, P. A. On two mechanisms of sound generation in turbulent jets. (English. Russian original) Zbl 1434.76115 Fluid Dyn. 54, No. 5, 614-628 (2019); translation from Izv. Ross. Akad. Nauk, Mekh. Zhidk. Gaza 2019, No. 5, 26-39 (2019). MSC: 76Q05 76F10 76F50 76F65 PDF BibTeX XML Cite \textit{S. Yu. Krasheninnikov} and \textit{P. A. Semenev}, Fluid Dyn. 54, No. 5, 614--628 (2019; Zbl 1434.76115); translation from Izv. Ross. Akad. Nauk, Mekh. Zhidk. Gaza 2019, No. 5, 26--39 (2019) Full Text: DOI
Mehta, Pavan Pranjivan; Pang, Guofei; Song, Fangying; Karniadakis, George Em Discovering a universal variable-order fractional model for turbulent Couette flow using a physics-informed neural network. (English) Zbl 1434.76053 Fract. Calc. Appl. Anal. 22, No. 6, 1675-1688 (2019). MSC: 76F40 35R11 76F65 68T20 PDF BibTeX XML Cite \textit{P. P. Mehta} et al., Fract. Calc. Appl. Anal. 22, No. 6, 1675--1688 (2019; Zbl 1434.76053) Full Text: DOI
Wu, Jin-Long; Sun, Rui; Laizet, Sylvain; Xiao, Heng Representation of stress tensor perturbations with application in machine-learning-assisted turbulence modeling. (English) Zbl 1440.76042 Comput. Methods Appl. Mech. Eng. 346, 707-726 (2019). MSC: 76F65 65F35 68T05 76M99 PDF BibTeX XML Cite \textit{J.-L. Wu} et al., Comput. Methods Appl. Mech. Eng. 346, 707--726 (2019; Zbl 1440.76042) Full Text: DOI
Fernandez, Pablo; Moura, Rodrigo C.; Mengaldo, Gianmarco; Peraire, Jaime Non-modal analysis of spectral element methods: towards accurate and robust large-eddy simulations. (English) Zbl 1440.76057 Comput. Methods Appl. Mech. Eng. 346, 43-62 (2019). MSC: 76M10 76F65 76M22 65M60 65M70 PDF BibTeX XML Cite \textit{P. Fernandez} et al., Comput. Methods Appl. Mech. Eng. 346, 43--62 (2019; Zbl 1440.76057) Full Text: DOI
Zheng, E. Z.; Rudman, M.; Singh, J.; Kuang, S. B. Direct numerical simulation of turbulent non-Newtonian flow using OpenFOAM. (English) Zbl 07187092 Appl. Math. Modelling 72, 50-67 (2019). MSC: 76 80 PDF BibTeX XML Cite \textit{E. Z. Zheng} et al., Appl. Math. Modelling 72, 50--67 (2019; Zbl 07187092) Full Text: DOI
Cai, Weihua; Ma, Hanghang; Wang, Yue; Chen, Jianping; Zheng, Xin; Zhang, Hongna Development of POD reduced-order model and its closure scheme for 2D Rayleigh-Bénard convection. (English) Zbl 07183398 Appl. Math. Modelling 66, 562-575 (2019). MSC: 76 80 PDF BibTeX XML Cite \textit{W. Cai} et al., Appl. Math. Modelling 66, 562--575 (2019; Zbl 07183398) Full Text: DOI
Koc, Birgul; Mohebujjaman, Muhammad; Mou, Changhong; Iliescu, Traian Commutation error in reduced order modeling of fluid flows. (English) Zbl 07179104 Adv. Comput. Math. 45, No. 5-6, 2587-2621 (2019). MSC: 65M60 65M06 65N30 76F65 76D05 35Q30 PDF BibTeX XML Cite \textit{B. Koc} et al., Adv. Comput. Math. 45, No. 5--6, 2587--2621 (2019; Zbl 07179104) Full Text: DOI