Jarrah, Ibrahim; Rizwan-uddin Nodal integral method to solve the two-dimensional, time-dependent, incompressible Navier-Stokes equations in curvilinear coordinates. (English) Zbl 07813464 Comput. Math. Appl. 158, 219-243 (2024). MSC: 76-XX 65-XX PDFBibTeX XMLCite \textit{I. Jarrah} and \textit{Rizwan-uddin}, Comput. Math. Appl. 158, 219--243 (2024; Zbl 07813464) Full Text: DOI
Zhu, Xingyu; Wang, Xiuping; Kou, Jisheng; Sun, Shuyu An energy stable incompressible SPH method with consistent solid boundary treatment. (English) Zbl 1522.76064 J. Comput. Appl. Math. 436, Article ID 115367, 16 p. (2024). MSC: 76M28 76D05 65M12 PDFBibTeX XMLCite \textit{X. Zhu} et al., J. Comput. Appl. Math. 436, Article ID 115367, 16 p. (2024; Zbl 1522.76064) Full Text: DOI
Si, Zhiyong; Hou, Akang; Wang, Yunxia A consistent projection finite element method for the non-stationary incompressible thermally coupled MHD equations. (English) Zbl 1527.76035 Commun. Nonlinear Sci. Numer. Simul. 126, Article ID 107496, 30 p. (2023). Reviewer: Xiaodi Zhang (Zhengzhou) MSC: 76M10 76W05 65M15 80A19 PDFBibTeX XMLCite \textit{Z. Si} et al., Commun. Nonlinear Sci. Numer. Simul. 126, Article ID 107496, 30 p. (2023; Zbl 1527.76035) Full Text: DOI
Mies, Fabian; Sadr, Mohsen; Torrilhon, Manuel An efficient jump-diffusion approximation of the Boltzmann equation. (English) Zbl 07715238 J. Comput. Phys. 490, Article ID 112308, 21 p. (2023). MSC: 76Pxx 82Cxx 35Qxx PDFBibTeX XMLCite \textit{F. Mies} et al., J. Comput. Phys. 490, Article ID 112308, 21 p. (2023; Zbl 07715238) Full Text: DOI arXiv
Long, Xiaonian; Ding, Qianqian Convergence analysis of the fully discrete projection method for inductionless magnetohydrodynamics system based on charge conservation. (English) Zbl 1519.76153 J. Sci. Comput. 96, No. 1, Paper No. 2, 24 p. (2023). Reviewer: Xiaodi Zhang (Zhengzhou) MSC: 76M10 76W05 65M12 PDFBibTeX XMLCite \textit{X. Long} and \textit{Q. Ding}, J. Sci. Comput. 96, No. 1, Paper No. 2, 24 p. (2023; Zbl 1519.76153) Full Text: DOI
Sellountos, Euripides J.; Gortsas, Theodore V.; Polyzos, Demosthenes A local domain boundary element method for solving 2D incompressible fluid flow problems. (English) Zbl 1521.76514 Eng. Anal. Bound. Elem. 150, 457-481 (2023). MSC: 76M15 65M38 PDFBibTeX XMLCite \textit{E. J. Sellountos} et al., Eng. Anal. Bound. Elem. 150, 457--481 (2023; Zbl 1521.76514) Full Text: DOI
Pham-Sy, Nam; Tran, Canh-Dung Parallel computation using non-overlapping domain decomposition coupled with compact local integrated RBF for Navier-Stokes equations. (English) Zbl 1523.76080 Int. J. Comput. Fluid Dyn. 36, No. 10, 835-856 (2022). MSC: 76M99 76D05 65Y05 PDFBibTeX XMLCite \textit{N. Pham-Sy} and \textit{C.-D. Tran}, Int. J. Comput. Fluid Dyn. 36, No. 10, 835--856 (2022; Zbl 1523.76080) Full Text: DOI
Mhamdi, Bouthayna; Bettaibi, Soufiene; Jellouli, Omar; Chafra, Moez MRT-lattice Boltzmann hybrid model for the double diffusive mixed convection with thermodiffusion effect. (English) Zbl 07733318 Nat. Comput. 21, No. 3, 393-405 (2022). MSC: 76R05 76R10 76R50 76M28 76M20 80A19 PDFBibTeX XMLCite \textit{B. Mhamdi} et al., Nat. Comput. 21, No. 3, 393--405 (2022; Zbl 07733318) Full Text: DOI
Zhao, Guang; Zhong, Chengwen; Liu, Sha; Wang, Yong; Zhuo, Congshan Application of gas-kinetic scheme for continuum and near-continuum flow on unstructured mesh. (English) Zbl 1528.76054 Int. J. Comput. Fluid Dyn. 36, No. 9, 753-775 (2022). MSC: 76M12 76N15 76P05 PDFBibTeX XMLCite \textit{G. Zhao} et al., Int. J. Comput. Fluid Dyn. 36, No. 9, 753--775 (2022; Zbl 1528.76054) Full Text: DOI
Khanwale, Makrand A.; Saurabh, Kumar; Fernando, Milinda; Calo, Victor M.; Sundar, Hari; Rossmanith, James A.; Ganapathysubramanian, Baskar A fully-coupled framework for solving Cahn-Hilliard Navier-Stokes equations: second-order, energy-stable numerical methods on adaptive octree based meshes. (English) Zbl 1512.76113 Comput. Phys. Commun. 280, Article ID 108501, 35 p. (2022). MSC: 76T06 76D05 76M10 76M20 76M30 PDFBibTeX XMLCite \textit{M. A. Khanwale} et al., Comput. Phys. Commun. 280, Article ID 108501, 35 p. (2022; Zbl 1512.76113) Full Text: DOI arXiv
Patel, Manoj R.; Pandya, Jigisha U.; Patel, Vijay K. Numerical analysis of fluid flow behaviour in two sided deep lid driven cavity using the finite volume technique. (English) Zbl 1524.76244 Comput. Methods Differ. Equ. 10, No. 4, 986-1006 (2022). MSC: 76M12 65N08 76D05 PDFBibTeX XMLCite \textit{M. R. Patel} et al., Comput. Methods Differ. Equ. 10, No. 4, 986--1006 (2022; Zbl 1524.76244) Full Text: DOI
Lu, J. B.; Chen, Z. X.; Tian, Z. F. A less time-consuming upwind compact difference method with adjusted dissipation property for solving the unsteady incompressible Navier-Stokes equations. (English) Zbl 1524.76265 Comput. Math. Appl. 126, 149-171 (2022). MSC: 76M20 76D05 65M06 65N06 76M22 PDFBibTeX XMLCite \textit{J. B. Lu} et al., Comput. Math. Appl. 126, 149--171 (2022; Zbl 1524.76265) Full Text: DOI
Jiang, Lan; Gu, Xiangyu; Wu, Jie A simplified lattice Boltzmann method for turbulent flow simulation. (English) Zbl 1513.76104 Adv. Appl. Math. Mech. 14, No. 5, 1040-1058 (2022). MSC: 76M28 76P99 PDFBibTeX XMLCite \textit{L. Jiang} et al., Adv. Appl. Math. Mech. 14, No. 5, 1040--1058 (2022; Zbl 1513.76104) Full Text: DOI
Pan, Xinglin; Zhou, Yan; Dong, Ping; Shi, Huabin An improved impermeable solid boundary scheme for meshless local Petrov-Galerkin method. (English) Zbl 1519.76282 Eur. J. Mech., B, Fluids 95, 94-105 (2022). MSC: 76M99 74F10 PDFBibTeX XMLCite \textit{X. Pan} et al., Eur. J. Mech., B, Fluids 95, 94--105 (2022; Zbl 1519.76282) Full Text: DOI
Solano, Tomas; Ordonez, Juan C.; Shoele, Kourosh Natural convection in vertical enclosures with conjugate boundary conditions. (English) Zbl 1508.76099 J. Fluid Mech. 946, Paper No. A17, 30 p. (2022). MSC: 76R10 76D05 76M20 80A19 PDFBibTeX XMLCite \textit{T. Solano} et al., J. Fluid Mech. 946, Paper No. A17, 30 p. (2022; Zbl 1508.76099) Full Text: DOI
Benner, Peter; Goyal, Pawan; Heiland, Jan; Duff, Igor Pontes Operator inference and physics-informed learning of low-dimensional models for incompressible flows. (English) Zbl 1505.76072 ETNA, Electron. Trans. Numer. Anal. 56, 28-51 (2022). MSC: 76M99 76D05 76D25 68T05 PDFBibTeX XMLCite \textit{P. Benner} et al., ETNA, Electron. Trans. Numer. Anal. 56, 28--51 (2022; Zbl 1505.76072) Full Text: DOI arXiv
Wang, An-Yang; Xu, Hang Highly accurate wavelet-homotopy solutions for mixed convection hybrid nanofluid flow in an inclined square lid-driven cavity. (English) Zbl 1524.76433 Comput. Math. Appl. 108, 88-108 (2022). MSC: 76R10 80A19 65T60 76M12 76M20 PDFBibTeX XMLCite \textit{A.-Y. Wang} and \textit{H. Xu}, Comput. Math. Appl. 108, 88--108 (2022; Zbl 1524.76433) Full Text: DOI
Roy, N.; Dürr, R.; Bück, A.; Kumar, J.; Sundar, S. Numerical methods for particle agglomeration and breakage in lid-driven cavity flows at low Reynolds numbers. (English) Zbl 07431714 Math. Comput. Simul. 192, 33-49 (2022). MSC: 76-XX 65-XX PDFBibTeX XMLCite \textit{N. Roy} et al., Math. Comput. Simul. 192, 33--49 (2022; Zbl 07431714) Full Text: DOI
Ulloa, Hugo N.; Ramón, Cintia L.; Doda, Tomy; Wüest, Alfred; Bouffard, Damien Development of overturning circulation in sloping waterbodies due to surface cooling. (English) Zbl 1508.76100 J. Fluid Mech. 930, Paper No. A18, 33 p. (2022). MSC: 76R10 76E06 80A19 86A05 PDFBibTeX XMLCite \textit{H. N. Ulloa} et al., J. Fluid Mech. 930, Paper No. A18, 33 p. (2022; Zbl 1508.76100) Full Text: DOI
Bettaibi, Soufiene; Jellouli, Omar Double diffusive mixed convection with thermodiffusion effect in a driven cavity by lattice Boltzmann method. (English) Zbl 1501.76079 Gwizdałła, Tomasz M. (ed.) et al., Cellular automata. 14th international conference on cellular automata for research and industry, ACRI 2020, Lodz, Poland, December 2–4, 2020. Proceedings. Cham: Springer. Lect. Notes Comput. Sci. 12599, 209-221 (2021). MSC: 76R05 76R10 76R50 76M28 76M20 80A19 PDFBibTeX XMLCite \textit{S. Bettaibi} and \textit{O. Jellouli}, Lect. Notes Comput. Sci. 12599, 209--221 (2021; Zbl 1501.76079) Full Text: DOI
Pessoa Mapelli, Vinícius; Czelusniak, Luiz Eduardo; dos Santos Guzella, Matheus; Cabezas Gómez, Luben Total energy thermal lattice Boltzmann simulation of mixed convection in a square cavity. (English) Zbl 1487.76076 Int. J. Appl. Comput. Math. 7, No. 5, Paper No. 209, 18 p. (2021). MSC: 76R05 76R10 76M28 80A19 PDFBibTeX XMLCite \textit{V. Pessoa Mapelli} et al., Int. J. Appl. Comput. Math. 7, No. 5, Paper No. 209, 18 p. (2021; Zbl 1487.76076) Full Text: DOI
Yu, Xueying; Fuhrman, David R.; Shao, Yanlin; Liao, Kangping; Duan, Wenyang; Zhang, Yunxing Enhanced solution of 2D incompressible Navier-Stokes equations based on an immersed-boundary generalized harmonic polynomial cell method. (English) Zbl 1493.76079 Eur. J. Mech., B, Fluids 89, 29-44 (2021). MSC: 76M99 76M20 76D05 PDFBibTeX XMLCite \textit{X. Yu} et al., Eur. J. Mech., B, Fluids 89, 29--44 (2021; Zbl 1493.76079) Full Text: DOI
Zhang, Jing-Kui; Cui, Miao; Zuo, Zong-Liang; Luo, Si-Yi; Guo, Jian-Xiang; Qiu, Zhong-Zhu Prediction on steady-oscillatory transition via Hopf bifurcation in a three-dimensional (3D) lid-driven cube. (English) Zbl 1521.76771 Comput. Fluids 229, Article ID 105068, 13 p. (2021). MSC: 76N06 65M70 76F06 PDFBibTeX XMLCite \textit{J.-K. Zhang} et al., Comput. Fluids 229, Article ID 105068, 13 p. (2021; Zbl 1521.76771) Full Text: DOI
Shinde, Vilas J.; Gaitonde, Datta V. Lagrangian approach for modal analysis of fluid flows. (English) Zbl 1495.76077 J. Fluid Mech. 928, Paper No. A35, 39 p. (2021). MSC: 76M20 76N06 PDFBibTeX XMLCite \textit{V. J. Shinde} and \textit{D. V. Gaitonde}, J. Fluid Mech. 928, Paper No. A35, 39 p. (2021; Zbl 1495.76077) Full Text: DOI arXiv
des Boscs, Pierre-Emmanuel; Kuhlmann, Hendrik C. Stability of obliquely driven cavity flow. (English) Zbl 1504.76031 J. Fluid Mech. 928, Paper No. A25, 42 p. (2021). MSC: 76E05 76D99 76M99 PDFBibTeX XMLCite \textit{P.-E. des Boscs} and \textit{H. C. Kuhlmann}, J. Fluid Mech. 928, Paper No. A25, 42 p. (2021; Zbl 1504.76031) Full Text: DOI
Bisht, Manju; Patil, Dhiraj V. Assessment of multiple relaxation time-lattice Boltzmann method framework for non-Newtonian fluid flow simulations. (English) Zbl 1478.76058 Eur. J. Mech., B, Fluids 85, 322-334 (2021). MSC: 76M28 76A05 PDFBibTeX XMLCite \textit{M. Bisht} and \textit{D. V. Patil}, Eur. J. Mech., B, Fluids 85, 322--334 (2021; Zbl 1478.76058) Full Text: DOI
Chen, Xinyang; Yang, Gengchao; Yao, Qinghe; Nie, Zisen; Jiang, Zichao A compressed lattice Boltzmann method based on ConvLSTM and resnet. (English) Zbl 1524.76279 Comput. Math. Appl. 97, 162-174 (2021). MSC: 76M28 76D05 68T05 76P05 65M75 PDFBibTeX XMLCite \textit{X. Chen} et al., Comput. Math. Appl. 97, 162--174 (2021; Zbl 1524.76279) Full Text: DOI
Siriwardana, Nihal J.; Pradhan, Saroj P. A high order finite difference method to solve the steady state Navier-Stokes equations. (English) Zbl 1472.76064 Appl. Appl. Math. 16, No. 1, 361-382 (2021). Reviewer: Kanakadurga Sivakumar (Chennai) MSC: 76M20 76D05 PDFBibTeX XMLCite \textit{N. J. Siriwardana} and \textit{S. P. Pradhan}, Appl. Appl. Math. 16, No. 1, 361--382 (2021; Zbl 1472.76064) Full Text: Link
Wang, Yingjuan; Gong, Guangcai; Shi, Xing; Gong, Ziche; Liu, Yongchao Application of inertia relaxation factor in lattice Boltzmann method. (Chinese. English summary) Zbl 1474.76060 Chin. J. Eng. Math. 38, No. 2, 195-206 (2021). MSC: 76M28 PDFBibTeX XMLCite \textit{Y. Wang} et al., Chin. J. Eng. Math. 38, No. 2, 195--206 (2021; Zbl 1474.76060) Full Text: DOI
Harouna, Souleymane Kadri; Perrier, Valérie No-slip and free-slip divergence-free wavelets for the simulation of incompressible viscous flows. (English) Zbl 1467.76041 Deiterding, Ralf (ed.) et al., Cartesian CFD methods for complex applications. Selected papers based on the presentations of the mini-symposium at ICIAM 2019, Valencia, Spain, July 14–19, 2019. Cham: Springer. SEMA SIMAI Springer Ser. ICIAM 2019 SEMA SIMAI Springer Ser. 3, 37-65 (2021). MSC: 76M22 76D05 65T60 65M12 PDFBibTeX XMLCite \textit{S. K. Harouna} and \textit{V. Perrier}, SEMA SIMAI Springer Ser. ICIAM 2019 SEMA SIMAI Springer Ser. 3, 37--65 (2021; Zbl 1467.76041) Full Text: DOI
Azizul, Fatin M.; Alsabery, Ammar I.; Hashim, Ishak; Chamkha, Ali J. Impact of heat source on combined convection flow inside wavy-walled cavity filled with nanofluids via heatline concept. (English) Zbl 1462.76168 Appl. Math. Comput. 393, Article ID 125754, 21 p. (2021). MSC: 76R05 76R10 76T20 76M10 80A19 PDFBibTeX XMLCite \textit{F. M. Azizul} et al., Appl. Math. Comput. 393, Article ID 125754, 21 p. (2021; Zbl 1462.76168) Full Text: DOI
Sun, Xiang; Pan, Xiaomin; Choi, Jung-Il Non-intrusive framework of reduced-order modeling based on proper orthogonal decomposition and polynomial chaos expansion. (English) Zbl 1457.76119 J. Comput. Appl. Math. 390, Article ID 113372, 23 p. (2021). MSC: 76M35 76D05 76R50 80A19 PDFBibTeX XMLCite \textit{X. Sun} et al., J. Comput. Appl. Math. 390, Article ID 113372, 23 p. (2021; Zbl 1457.76119) Full Text: DOI arXiv
Halassi Bacar, Abdoul-Hafar; Ouazar, Driss; Taik, Ahmed A predictor-corrector meshless based scheme for incompressible Navier-Stokes flows. (English) Zbl 1465.76077 Int. J. Appl. Comput. Math. 6, No. 1, Paper No. 18, 21 p. (2020). MSC: 76M99 76D05 76R10 PDFBibTeX XMLCite \textit{A.-H. Halassi Bacar} et al., Int. J. Appl. Comput. Math. 6, No. 1, Paper No. 18, 21 p. (2020; Zbl 1465.76077) Full Text: DOI
Luo, Li; Cai, Xiao-Chuan; Yan, Zhengzheng; Xu, Lei; Keyes, David E. A multilayer nonlinear elimination preconditioned inexact Newton method for steady-state incompressible flow problems in three dimensions. (English) Zbl 1456.76104 SIAM J. Sci. Comput. 42, No. 6, B1404-B1428 (2020). MSC: 76M99 76D05 65N12 65N55 65Y05 PDFBibTeX XMLCite \textit{L. Luo} et al., SIAM J. Sci. Comput. 42, No. 6, B1404--B1428 (2020; Zbl 1456.76104) Full Text: DOI
Cao, Wenjin; Li, Zhe; Li, Xuhui; Le Touzé, David A regularized single-phase lattice Boltzmann method for free-surface flows. (English) Zbl 1456.76089 Comput. Math. Appl. 80, No. 10, 2194-2211 (2020). MSC: 76M28 76D05 76D33 PDFBibTeX XMLCite \textit{W. Cao} et al., Comput. Math. Appl. 80, No. 10, 2194--2211 (2020; Zbl 1456.76089) 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 PDFBibTeX XMLCite \textit{B. An} et al., Comput. Math. Appl. 79, No. 6, 1718--1741 (2020; Zbl 1443.76164) Full Text: DOI
Sellountos, Euripides J. A single domain velocity-vorticity fast multipole boundary domain element method for three dimensional incompressible fluid flow problems. II. (English) Zbl 1465.76065 Eng. Anal. Bound. Elem. 114, 74-93 (2020). MSC: 76M15 65N38 76D05 PDFBibTeX XMLCite \textit{E. J. Sellountos}, Eng. Anal. Bound. Elem. 114, 74--93 (2020; Zbl 1465.76065) Full Text: DOI
Luo, Quanbing Discretized pressure Poisson algorithm for steady incompressible flow on two-dimensional triangular unstructured grids. (English) Zbl 1477.76058 Eur. J. Mech., B, Fluids 80, 187-194 (2020). MSC: 76M12 76D05 PDFBibTeX XMLCite \textit{Q. Luo}, Eur. J. Mech., B, Fluids 80, 187--194 (2020; Zbl 1477.76058) Full Text: DOI
Zhu, Jianxun; Holmedal, Lars Erik; Wang, Hong; Myrhaug, Dag Vortex dynamics and flow patterns in a two-dimensional oscillatory lid-driven rectangular cavity. (English) Zbl 1477.76030 Eur. J. Mech., B, Fluids 79, 255-269 (2020). MSC: 76D17 76D05 76M99 PDFBibTeX XMLCite \textit{J. Zhu} et al., Eur. J. Mech., B, Fluids 79, 255--269 (2020; Zbl 1477.76030) Full Text: DOI
Chattopadhyay, Anirban; Pandit, Swapan K.; Oztop, Hakan F. An analysis of thermal performance and entropy generation in a wavy enclosure with moving walls. (English) Zbl 1477.76081 Eur. J. Mech., B, Fluids 79, 12-26 (2020). MSC: 76R10 76R05 76D05 76M20 80A19 PDFBibTeX XMLCite \textit{A. Chattopadhyay} et al., Eur. J. Mech., B, Fluids 79, 12--26 (2020; Zbl 1477.76081) Full Text: DOI
Armstrong, Charles; Peng, Yan An MRT extension to the multigrid lattice Boltzmann method. (English) Zbl 1490.76165 Commun. Comput. Phys. 26, No. 4, 1178-1195 (2019). MSC: 76M28 76D99 PDFBibTeX XMLCite \textit{C. Armstrong} and \textit{Y. Peng}, Commun. Comput. Phys. 26, No. 4, 1178--1195 (2019; Zbl 1490.76165) Full Text: DOI
Pan, Dongxin; Zhong, Chengwen; Zhuo, Congshan An implicit discrete unified gas-kinetic scheme for simulations of steady flow in all flow regimes. (English) Zbl 1486.76063 Commun. Comput. Phys. 25, No. 5, 1469-1495 (2019). MSC: 76M12 76N15 PDFBibTeX XMLCite \textit{D. Pan} et al., Commun. Comput. Phys. 25, No. 5, 1469--1495 (2019; Zbl 1486.76063) Full Text: DOI
Yu, P. X.; Tian, Z. F. A high-order compact scheme for the pure streamfunction (vector potential) formulation of the 3D steady incompressible Navier-Stokes equations. (English) Zbl 1451.76088 J. Comput. Phys. 382, 65-85 (2019). MSC: 76M20 76D05 65M06 PDFBibTeX XMLCite \textit{P. X. Yu} and \textit{Z. F. Tian}, J. Comput. Phys. 382, 65--85 (2019; Zbl 1451.76088) Full Text: DOI
Vasyliv, Yaroslav; Alexeev, Alexander Development of general finite differences for complex geometries using a sharp interface formulation. (English) Zbl 1456.65142 Comput. Fluids 193, Article ID 103959, 17 p. (2019). MSC: 65N06 65N08 35J05 PDFBibTeX XMLCite \textit{Y. Vasyliv} and \textit{A. Alexeev}, Comput. Fluids 193, Article ID 103959, 17 p. (2019; Zbl 1456.65142) Full Text: DOI
Sellountos, Euripides J. A single domain velocity-vorticity fast multipole boundary domain element method for two dimensional incompressible fluid flow problems. (English) Zbl 1464.74319 Eng. Anal. Bound. Elem. 106, 359-370 (2019). MSC: 74S15 65M38 76D05 PDFBibTeX XMLCite \textit{E. J. Sellountos}, Eng. Anal. Bound. Elem. 106, 359--370 (2019; Zbl 1464.74319) Full Text: DOI
Song, Fangying; Karniadakis, George Em Fractional magneto-hydrodynamics: algorithms and applications. (English) Zbl 1416.76127 J. Comput. Phys. 378, 44-62 (2019). MSC: 76M10 76W05 35R11 65M60 PDFBibTeX XMLCite \textit{F. Song} and \textit{G. E. Karniadakis}, J. Comput. Phys. 378, 44--62 (2019; Zbl 1416.76127) Full Text: DOI
Dash, S. M. A flexible forcing immersed boundary-simplified lattice Boltzmann method for two and three-dimensional fluid-solid interaction problems. (English) Zbl 1519.76243 Comput. Fluids 184, 165-177 (2019). MSC: 76M28 74F10 76D05 76D25 PDFBibTeX XMLCite \textit{S. M. Dash}, Comput. Fluids 184, 165--177 (2019; Zbl 1519.76243) Full Text: DOI
Yu, Qiang; Xu, Hang Novel wavelet-homotopy Galerkin technique for analysis of lid-driven cavity flow and heat transfer with non-uniform boundary conditions. (English) Zbl 1416.76236 AMM, Appl. Math. Mech., Engl. Ed. 39, No. 12, 1691-1718 (2018). MSC: 76M25 65M60 80A20 PDFBibTeX XMLCite \textit{Q. Yu} and \textit{H. Xu}, AMM, Appl. Math. Mech., Engl. Ed. 39, No. 12, 1691--1718 (2018; Zbl 1416.76236) Full Text: DOI
Mu, Yongqiang; Hao, Jianchao; Zhang, Jingkui; Dong, Hua; Lin, Huan The spectral collocation method-artificial compressibility method (SCM-ACM) for solving incompressible fluid flow. (Chinese. English summary) Zbl 1424.76026 Chin. J. Comput. Mech. 35, No. 3, 304-309 (2018). MSC: 76M22 65M70 PDFBibTeX XMLCite \textit{Y. Mu} et al., Chin. J. Comput. Mech. 35, No. 3, 304--309 (2018; Zbl 1424.76026) Full Text: DOI
Ye, Ting; Li, Yu A comparative review of smoothed particle hydrodynamics, dissipative particle dynamics and smoothed dissipative particle dynamics. (English) Zbl 1404.76218 Int. J. Comput. Methods 15, No. 8, Article ID 1850083, 19 p. (2018). MSC: 76M28 65M75 PDFBibTeX XMLCite \textit{T. Ye} and \textit{Y. Li}, Int. J. Comput. Methods 15, No. 8, Article ID 1850083, 19 p. (2018; Zbl 1404.76218) Full Text: DOI
Gibanov, Nikita S.; Sheremet, Mikhail A.; Oztop, Hakan F.; Abu-Hamdeh, Nidal Mixed convection with entropy generation of nanofluid in a lid-driven cavity under the effects of a heat-conducting solid wall and vertical temperature gradient. (English) Zbl 1408.76530 Eur. J. Mech., B, Fluids 70, 148-159 (2018). MSC: 76T20 76R10 76R05 80A20 PDFBibTeX XMLCite \textit{N. S. Gibanov} et al., Eur. J. Mech., B, Fluids 70, 148--159 (2018; Zbl 1408.76530) Full Text: DOI
Hesthaven, J. S.; Ubbiali, S. Non-intrusive reduced order modeling of nonlinear problems using neural networks. (English) Zbl 1398.65330 J. Comput. Phys. 363, 55-78 (2018). MSC: 65N99 68T05 68W27 35B30 76D05 PDFBibTeX XMLCite \textit{J. S. Hesthaven} and \textit{S. Ubbiali}, J. Comput. Phys. 363, 55--78 (2018; Zbl 1398.65330) Full Text: DOI Link
Granados, J. M.; Power, H.; Bustamante, C. A.; Flórez, W. F.; Hill, A. F. A global particular solution meshless approach for the four-sided lid-driven cavity flow problem in the presence of magnetic fields. (English) Zbl 1390.76673 Comput. Fluids 160, 120-137 (2018). MSC: 76M25 76W05 65N80 PDFBibTeX XMLCite \textit{J. M. Granados} et al., Comput. Fluids 160, 120--137 (2018; Zbl 1390.76673) Full Text: DOI
Hiptmair, Ralf; Li, Lingxiao; Mao, Shipeng; Zheng, Weiying A fully divergence-free finite element method for magnetohydrodynamic equations. (English) Zbl 1393.65031 Math. Models Methods Appl. Sci. 28, No. 4, 659-695 (2018). MSC: 65M60 76W05 65F10 65F08 35Q35 35D30 PDFBibTeX XMLCite \textit{R. Hiptmair} et al., Math. Models Methods Appl. Sci. 28, No. 4, 659--695 (2018; Zbl 1393.65031) Full Text: DOI
Brynjell-Rahkola, M.; Tuckerman, L. S.; Schlatter, P.; Henningson, D. S. Computing optimal forcing using Laplace preconditioning. (English) Zbl 1488.76100 Commun. Comput. Phys. 22, No. 5, 1508-1532 (2017). MSC: 76M22 65F08 76E15 76E09 65F15 PDFBibTeX XMLCite \textit{M. Brynjell-Rahkola} et al., Commun. Comput. Phys. 22, No. 5, 1508--1532 (2017; Zbl 1488.76100) Full Text: DOI
Ren, Junjie; Guo, Ping Lattice Boltzmann simulation of steady flow in a semi-elliptical cavity. (English) Zbl 1499.76080 Commun. Comput. Phys. 21, No. 3, 692-717 (2017). MSC: 76M28 65N75 PDFBibTeX XMLCite \textit{J. Ren} and \textit{P. Guo}, Commun. Comput. Phys. 21, No. 3, 692--717 (2017; Zbl 1499.76080) Full Text: DOI
Murdock, J. R.; Ickes, J. C.; Yang, S. L. Transition flow with an incompressible lattice Boltzmann method. (English) Zbl 1499.76079 Adv. Appl. Math. Mech. 9, No. 5, 1271-1288 (2017). MSC: 76M28 76F05 35B32 35Q20 35Q35 PDFBibTeX XMLCite \textit{J. R. Murdock} et al., Adv. Appl. Math. Mech. 9, No. 5, 1271--1288 (2017; Zbl 1499.76079) Full Text: DOI
Garcia, Salvador Chaos in the lid-driven square cavity. (English) Zbl 07313875 Math. Comput. Simul. 142, 98-112 (2017). MSC: 76Bxx 76Dxx 76Mxx PDFBibTeX XMLCite \textit{S. Garcia}, Math. Comput. Simul. 142, 98--112 (2017; Zbl 07313875) Full Text: DOI
Yu, P. X.; Tian, Z. F.; Ying, A. Y.; Abdou, M. A. Stream function-velocity-magnetic induction compact difference method for the 2D steady incompressible full magnetohydrodynamic equations. (English) Zbl 1411.76108 Comput. Phys. Commun. 219, 45-69 (2017). MSC: 76M20 76W05 PDFBibTeX XMLCite \textit{P. X. Yu} et al., Comput. Phys. Commun. 219, 45--69 (2017; Zbl 1411.76108) Full Text: DOI
Su, Haiyan; Feng, Xinlong; He, Yinnian Second order fully discrete defect-correction scheme for nonstationary conduction-convection problem at high Reynolds number. (English) Zbl 1370.65056 Numer. Methods Partial Differ. Equations 33, No. 3, 681-703 (2017). Reviewer: K. N. Shukla (Gurgaon) MSC: 65M60 65M06 65M15 35Q35 PDFBibTeX XMLCite \textit{H. Su} et al., Numer. Methods Partial Differ. Equations 33, No. 3, 681--703 (2017; Zbl 1370.65056) Full Text: DOI
Li, Zhenquan; Wood, Robert Accuracy verification of a 2D adaptive mesh refinement method for incompressible or steady flow. (English) Zbl 1381.76220 J. Comput. Appl. Math. 318, 259-265 (2017). MSC: 76M12 65N08 65N50 76D05 PDFBibTeX XMLCite \textit{Z. Li} and \textit{R. Wood}, J. Comput. Appl. Math. 318, 259--265 (2017; Zbl 1381.76220) Full Text: DOI
Zhang, Chunze; Cheng, Yongguang; Huang, Shan; Wu, Jiayang Improving the stability of the multiple-relaxation-time lattice Boltzmann method by a viscosity counteracting approach. (English) Zbl 1488.65540 Adv. Appl. Math. Mech. 8, No. 1, 37-51 (2016). MSC: 65M75 76M28 76D05 35Q35 PDFBibTeX XMLCite \textit{C. Zhang} et al., Adv. Appl. Math. Mech. 8, No. 1, 37--51 (2016; Zbl 1488.65540) Full Text: DOI
Ghaffarpasand, Omid Numerical study of MHD natural convection inside a sinusoidally heated lid-driven cavity filled with Fe\(_3\)O\(_4\)-water nanofluid in the presence of Joule heating. (English) Zbl 1480.76155 Appl. Math. Modelling 40, No. 21-22, 9165-9182 (2016). MSC: 76W05 76D05 76M12 80A19 PDFBibTeX XMLCite \textit{O. Ghaffarpasand}, Appl. Math. Modelling 40, No. 21--22, 9165--9182 (2016; Zbl 1480.76155) Full Text: DOI
Song, Lunji; O’Neill, Charles A high-order symmetric interior penalty discontinuous Galerkin scheme to simulate vortex dominated incompressible fluid flow. (English) Zbl 1458.76067 AIMS Math. 1, No. 1, 43-63 (2016). MSC: 76M10 76D17 76D05 PDFBibTeX XMLCite \textit{L. Song} and \textit{C. O'Neill}, AIMS Math. 1, No. 1, 43--63 (2016; Zbl 1458.76067) Full Text: DOI
Bettaibi, Soufiene; Kuznik, Frédéric; Sediki, Ezeddine Hybrid LBM-MRT model coupled with finite difference method for double-diffusive mixed convection in rectangular enclosure with insulated moving lid. (English) Zbl 1400.76062 Physica A 444, 311-326 (2016). MSC: 76M28 80A20 PDFBibTeX XMLCite \textit{S. Bettaibi} et al., Physica A 444, 311--326 (2016; Zbl 1400.76062) Full Text: DOI
Moein Addini, M.; Gandjalikhan Nassab, S. A. Combined mixed convection and radiation heat transfer in an obstacle wall mounted lid-driven cavity. (English) Zbl 1401.76115 Int. J. Nonlinear Sci. Numer. Simul. 17, No. 6, 277-289 (2016). MSC: 76N15 76M12 76R05 76R10 80A20 PDFBibTeX XMLCite \textit{M. Moein Addini} and \textit{S. A. Gandjalikhan Nassab}, Int. J. Nonlinear Sci. Numer. Simul. 17, No. 6, 277--289 (2016; Zbl 1401.76115) Full Text: DOI
Ambethkar, Vusala; Kumar, Manoj; Srivastava, Mohit Kumar Numerical solutions of 2-D unsteady incompressible flow in a driven square cavity using streamfunction-vorticity formulation. (English) Zbl 1371.35190 Int. J. Appl. Math. 29, No. 6, 727-757 (2016). MSC: 35Q30 76D05 76D07 76M20 65M06 PDFBibTeX XMLCite \textit{V. Ambethkar} et al., Int. J. Appl. Math. 29, No. 6, 727--757 (2016; Zbl 1371.35190) Full Text: DOI
Wang, Da-Guo; Shui, Qing-Xiang SUPG finite element method based on penalty function for lid-driven cavity flow up to \(Re = 27500\). (English) Zbl 1342.76080 Acta Mech. Sin. 32, No. 1, 54-63 (2016). MSC: 76M10 65N30 76D05 PDFBibTeX XMLCite \textit{D.-G. Wang} and \textit{Q.-X. Shui}, Acta Mech. Sin. 32, No. 1, 54--63 (2016; Zbl 1342.76080) Full Text: DOI
Moumni, Hamdi; Welhezi, Hedia; Djebali, Ridha; Sediki, Ezeddine Accurate finite volume investigation of nanofluid mixed convection in two-sided lid driven cavity including discrete heat sources. (English) Zbl 1443.76157 Appl. Math. Modelling 39, No. 14, 4164-4179 (2015). MSC: 76M12 76T20 80A19 PDFBibTeX XMLCite \textit{H. Moumni} et al., Appl. Math. Modelling 39, No. 14, 4164--4179 (2015; Zbl 1443.76157) Full Text: DOI
Hosseini, Babak S.; Möller, Matthias; Turek, Stefan Isogeometric analysis of the Navier-Stokes equations with Taylor-Hood B-spline elements. (English) Zbl 1410.76043 Appl. Math. Comput. 267, 264-281 (2015). MSC: 76D05 65N30 76M10 PDFBibTeX XMLCite \textit{B. S. Hosseini} et al., Appl. Math. Comput. 267, 264--281 (2015; Zbl 1410.76043) Full Text: DOI
Safdari, Arman; Kim, Kyung Chun Lattice Boltzmann simulation of the three-dimensional motions of particles with various density ratios in lid-driven cavity flow. (English) Zbl 1410.76378 Appl. Math. Comput. 265, 826-843 (2015). MSC: 76M28 82C22 PDFBibTeX XMLCite \textit{A. Safdari} and \textit{K. C. Kim}, Appl. Math. Comput. 265, 826--843 (2015; Zbl 1410.76378) Full Text: DOI
Hon, Yiu-Chung; Šarler, Božidar; Yun, Dong-fang Local radial basis function collocation method for solving thermo-driven fluid-flow problems with free surface. (English) Zbl 1403.76140 Eng. Anal. Bound. Elem. 57, 2-8 (2015). MSC: 76M22 65M70 76R10 PDFBibTeX XMLCite \textit{Y.-C. Hon} et al., Eng. Anal. Bound. Elem. 57, 2--8 (2015; Zbl 1403.76140) Full Text: DOI
Kefayati, GH. R. Simulation of vertical and horizontal magnetic fields effects on non-Newtonian power-law fluids in an internal flow using FDLBM. (English) Zbl 1390.76024 Comput. Fluids 114, 12-25 (2015). MSC: 76A05 76W05 76M28 PDFBibTeX XMLCite \textit{GH. R. Kefayati}, Comput. Fluids 114, 12--25 (2015; Zbl 1390.76024) Full Text: DOI
Zhuo, Congshan; Zhong, Chengwen; Guo, Xixiong; Cao, Jun Numerical investigation of four-lid-driven cavity flow bifurcation using the multiple-relaxation-time lattice Boltzmann method. (English) Zbl 1390.76797 Comput. Fluids 110, 136-151 (2015). MSC: 76M28 PDFBibTeX XMLCite \textit{C. Zhuo} et al., Comput. Fluids 110, 136--151 (2015; Zbl 1390.76797) Full Text: DOI
Hong, Pei-Yao; Huang, Li-Min; Lin, Li-Song; Lin, Chao-An Scalable multi-relaxation-time lattice Boltzmann simulations on multi-GPU cluster. (English) Zbl 1390.76720 Comput. Fluids 110, 1-8 (2015). MSC: 76M28 65Y10 PDFBibTeX XMLCite \textit{P.-Y. Hong} et al., Comput. Fluids 110, 1--8 (2015; Zbl 1390.76720) Full Text: DOI
Yapici, Kerim; Obut, Salih Benchmark results for natural and mixed convection heat transfer in a cavity. (English) Zbl 1356.76195 Int. J. Numer. Methods Heat Fluid Flow 25, No. 5, 998-1029 (2015). MSC: 76M12 76R10 80A20 PDFBibTeX XMLCite \textit{K. Yapici} and \textit{S. Obut}, Int. J. Numer. Methods Heat Fluid Flow 25, No. 5, 998--1029 (2015; Zbl 1356.76195) Full Text: DOI
Gürbüz, Merve; Tezer-Sezgin, M. MHD Stokes flow in lid-driven cavity and backward-facing step channel. (English) Zbl 1344.76089 Eur. J. Comput. Mech. 24, No. 6, 279-301 (2015). MSC: 76W05 76D07 PDFBibTeX XMLCite \textit{M. Gürbüz} and \textit{M. Tezer-Sezgin}, Eur. J. Comput. Mech. 24, No. 6, 279--301 (2015; Zbl 1344.76089) Full Text: DOI
Lal, Rajnesh; Li, Zhenquan Sensitivity analysis of a mesh refinement method using the numerical solutions of 2D lid-driven cavity flow. (English) Zbl 1331.65127 J. Math. Chem. 53, No. 3, 844-867 (2015). MSC: 65M08 65M50 76D05 PDFBibTeX XMLCite \textit{R. Lal} and \textit{Z. Li}, J. Math. Chem. 53, No. 3, 844--867 (2015; Zbl 1331.65127) Full Text: DOI
Soufiene, Bettaibi; Ezeddine, Sediki; Frédéric, Kuznik; Sauro, Succi Lattice Boltzmann simulation of mixed convection heat transfer in a driven cavity with non-uniform heating of the bottom wall. (English) Zbl 1305.76085 Commun. Theor. Phys. 63, No. 1, 91-100 (2015). MSC: 76M28 76M20 80A20 PDFBibTeX XMLCite \textit{B. Soufiene} et al., Commun. Theor. Phys. 63, No. 1, 91--100 (2015; Zbl 1305.76085) Full Text: DOI Link
Li, Zhenquan; Wood, Robert Accuracy analysis of an adaptive mesh refinement method using benchmarks of 2-D steady incompressible lid-driven cavity flows and coarser meshes. (English) Zbl 1334.76089 J. Comput. Appl. Math. 275, 262-271 (2015). MSC: 76M12 65N50 80A20 PDFBibTeX XMLCite \textit{Z. Li} and \textit{R. Wood}, J. Comput. Appl. Math. 275, 262--271 (2015; Zbl 1334.76089) Full Text: DOI
Cheng, T. S.; Liu, W.-H. Effects of cavity inclination on mixed convection heat transfer in lid-driven cavity flows. (English) Zbl 1391.76702 Comput. Fluids 100, 108-122 (2014). MSC: 76Rxx 80A20 PDFBibTeX XMLCite \textit{T. S. Cheng} and \textit{W. H. Liu}, Comput. Fluids 100, 108--122 (2014; Zbl 1391.76702) Full Text: DOI
Gelfgat, Alexander Yu. Visualization of three-dimensional incompressible flows by quasi-two-dimensional divergence-free projections. (English) Zbl 1391.76594 Comput. Fluids 97, 143-155 (2014). MSC: 76M27 PDFBibTeX XMLCite \textit{A. Yu. Gelfgat}, Comput. Fluids 97, 143--155 (2014; Zbl 1391.76594) Full Text: DOI arXiv
Safdari, Arman; Kim, Kyung Chun Lattice Boltzmann simulation of solid particles behavior in a three-dimensional lid-driven cavity flow. (English) Zbl 1362.76043 Comput. Math. Appl. 68, No. 5, 606-621 (2014). MSC: 76M28 PDFBibTeX XMLCite \textit{A. Safdari} and \textit{K. C. Kim}, Comput. Math. Appl. 68, No. 5, 606--621 (2014; Zbl 1362.76043) Full Text: DOI
Antar, M. A.; Ben-Mansour, Rached; Al-Dini, Salem Ahmed The effect of thermal radiation on the heat transfer characteristics of lid-driven cavity with a moving surface. (English) Zbl 1356.80007 Int. J. Numer. Methods Heat Fluid Flow 24, No. 3, 679-696 (2014). MSC: 80A20 PDFBibTeX XMLCite \textit{M. A. Antar} et al., Int. J. Numer. Methods Heat Fluid Flow 24, No. 3, 679--696 (2014; Zbl 1356.80007) Full Text: DOI
Weihong, Peng; Feng, Gao; Guohua, Cao; Yong, Xu; Hongmei, Cheng Analytical solution of Stokes flow in a driven cavity using the natural boundary element method. (English) Zbl 1356.76077 CMES, Comput. Model. Eng. Sci. 100, No. 2, 133-155 (2014). MSC: 76D07 76M15 PDFBibTeX XMLCite \textit{P. Weihong} et al., CMES, Comput. Model. Eng. Sci. 100, No. 2, 133--155 (2014; Zbl 1356.76077) Full Text: DOI
Su, Haiyan; Huang, Pengzhan; Wen, Juan; Feng, Xinlong Three iterative finite element methods for the stationary Smagorinsky model. (English) Zbl 1309.76134 East Asian J. Appl. Math. 4, No. 2, 132-151 (2014). MSC: 76M10 65N30 65N12 76D07 PDFBibTeX XMLCite \textit{H. Su} et al., East Asian J. Appl. Math. 4, No. 2, 132--151 (2014; Zbl 1309.76134) Full Text: DOI
Bettaibi, Soufiene; Kuznik, Frédéric; Sediki, Ezeddine Hybrid lattice Boltzmann finite difference simulation of mixed convection flows in a lid-driven square cavity. (English) Zbl 1303.80001 Phys. Lett., A 378, No. 32-33, 2429-2435 (2014). MSC: 80A20 80M20 76M28 76R99 PDFBibTeX XMLCite \textit{S. Bettaibi} et al., Phys. Lett., A 378, No. 32--33, 2429--2435 (2014; Zbl 1303.80001) Full Text: DOI
Johnston, Hans; Wang, Cheng; Liu, Jian-Guo A local pressure boundary condition spectral collocation scheme for the three-dimensional Navier-Stokes equations. (English) Zbl 1299.76177 J. Sci. Comput. 60, No. 3, 612-626 (2014). MSC: 76M22 76D05 PDFBibTeX XMLCite \textit{H. Johnston} et al., J. Sci. Comput. 60, No. 3, 612--626 (2014; Zbl 1299.76177) Full Text: DOI
Li, Zhenquan Accuracy analysis of a mesh refinement method using benchmarks of 2-D lid-driven cavity flows and finer meshes. (English) Zbl 1426.76397 J. Math. Chem. 52, No. 4, 1156-1170 (2014). MSC: 76M12 76D05 PDFBibTeX XMLCite \textit{Z. Li}, J. Math. Chem. 52, No. 4, 1156--1170 (2014; Zbl 1426.76397) Full Text: DOI
Meraji, S. Hamed; Ghaheri, Abbas; Malekzadeh, Parviz An efficient algorithm based on the differential quadrature method for solving Navier-Stokes equations. (English) Zbl 1430.76124 Int. J. Numer. Methods Fluids 71, No. 4, 422-445 (2013). MSC: 76D05 PDFBibTeX XMLCite \textit{S. H. Meraji} et al., Int. J. Numer. Methods Fluids 71, No. 4, 422--445 (2013; Zbl 1430.76124) Full Text: DOI
Chang, Hung-Wen; Hong, Pei-Yao; Lin, Li-Song; Lin, Chao-An Simulations of flow instability in three dimensional deep cavities with multi relaxation time lattice Boltzmann method on graphic processing units. (English) Zbl 1391.76600 Comput. Fluids 88, 866-871 (2013). MSC: 76M28 65R10 65Y10 PDFBibTeX XMLCite \textit{H.-W. Chang} et al., Comput. Fluids 88, 866--871 (2013; Zbl 1391.76600) Full Text: DOI
Sengupta, Tapan K.; Singh, Himanshu; Bhaumik, Swagata; Chowdhury, Rajarshi R. Diffusion in inhomogeneous flows: unique equilibrium state in an internal flow. (English) Zbl 1391.76113 Comput. Fluids 88, 440-451 (2013). MSC: 76D05 76R50 76V05 76F65 PDFBibTeX XMLCite \textit{T. K. Sengupta} et al., Comput. Fluids 88, 440--451 (2013; Zbl 1391.76113) Full Text: DOI
Malleswaran, A.; Sivasankaran, S.; Bhuvaneswari, M. Effect of heating location and size on MHD mixed convection in a lid-driven cavity. (English) Zbl 1356.76440 Int. J. Numer. Methods Heat Fluid Flow 23, No. 5, 867-884 (2013). MSC: 76W05 76R99 PDFBibTeX XMLCite \textit{A. Malleswaran} et al., Int. J. Numer. Methods Heat Fluid Flow 23, No. 5, 867--884 (2013; Zbl 1356.76440) Full Text: DOI
Pekmen, B.; Tezer-Sezgin, M. DRBEM solution of incompressible MHD flow with magnetic potential. (English) Zbl 1356.76444 CMES, Comput. Model. Eng. Sci. 96, No. 4, 275-292 (2013). MSC: 76W05 76M15 PDFBibTeX XMLCite \textit{B. Pekmen} and \textit{M. Tezer-Sezgin}, CMES, Comput. Model. Eng. Sci. 96, No. 4, 275--292 (2013; Zbl 1356.76444) Full Text: DOI
Arefmanesh, A.; Najafi, M.; Musavi, S. H. Buoyancy-driven fluid flow and heat transfer in a square cavity with a wavy baffle-meshless numerical analysis. (English) Zbl 1351.76208 Eng. Anal. Bound. Elem. 37, No. 2, 366-382 (2013). MSC: 76M25 80M25 76D05 80A20 PDFBibTeX XMLCite \textit{A. Arefmanesh} et al., Eng. Anal. Bound. Elem. 37, No. 2, 366--382 (2013; Zbl 1351.76208) Full Text: DOI
Zhuo, Congshan; Zhong, Chengwen; Cao, Jun Filter-matrix lattice Boltzmann simulation of lid-driven deep-cavity flows. II: Flow bifurcation. (English) Zbl 1383.76390 Comput. Math. Appl. 65, No. 12, 1883-1893 (2013). MSC: 76M28 76D05 PDFBibTeX XMLCite \textit{C. Zhuo} et al., Comput. Math. Appl. 65, No. 12, 1883--1893 (2013; Zbl 1383.76390) Full Text: DOI
Zhuo, Congshan; Zhong, Chengwen; Cao, Jun Filter-matrix lattice Boltzmann simulation of lid-driven deep-cavity flows. I: Steady flows. (English) Zbl 1383.76389 Comput. Math. Appl. 65, No. 12, 1863-1882 (2013). MSC: 76M28 76D05 PDFBibTeX XMLCite \textit{C. Zhuo} et al., Comput. Math. Appl. 65, No. 12, 1863--1882 (2013; Zbl 1383.76389) Full Text: DOI
Burda, Pavel; Novotný, Jaroslav; Šístek, Jakub Analytical solution of rotationally symmetric Stokes flow near corners. (English) Zbl 1340.76025 Brandts, J. (ed.) et al., Proceedings of the international conference ‘Applications of mathematics’, Prague, Czech Republic, May 15–17, 2013. In honor of the 70th birthday of Karel Segeth. Prague: Academy of Sciences of the Czech Republic, Institute of Mathematics (ISBN 978-80-85823-61-5). 13-20 (2013). Reviewer: Marta Čertíková (Praha) MSC: 76D07 76D05 76M10 76M45 PDFBibTeX XMLCite \textit{P. Burda} et al., in: Proceedings of the international conference `Applications of mathematics', Prague, Czech Republic, May 15--17, 2013. In honor of the 70th birthday of Karel Segeth. Prague: Academy of Sciences of the Czech Republic, Institute of Mathematics. 13--20 (2013; Zbl 1340.76025) Full Text: Link
Tzirtzilakis, E. E.; Xenos, M. A. Biomagnetic fluid flow in a driven cavity. (English) Zbl 1293.76188 Meccanica 48, No. 1, 187-200 (2013). MSC: 76Z05 76W05 76M12 92C35 PDFBibTeX XMLCite \textit{E. E. Tzirtzilakis} and \textit{M. A. Xenos}, Meccanica 48, No. 1, 187--200 (2013; Zbl 1293.76188) Full Text: DOI
Kaffel, Ahmed Numerical simulation of three-dimensional mixed-convection in a lid-driven square cavity. (English) Zbl 1295.80005 Far East J. Appl. Math. 80, No. 2, 67-78 (2013). Reviewer: Pavol Chocholatý (Bratislava) MSC: 80M20 80A20 76R05 76R10 76M20 65Q30 35Q79 35Q30 PDFBibTeX XMLCite \textit{A. Kaffel}, Far East J. Appl. Math. 80, No. 2, 67--78 (2013; Zbl 1295.80005) Full Text: Link