Results 261 to 270 of about 326,003 (288)
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A Compact Higher Order Finite Difference Method for the Incompressible Navier–Stokes Equations
Journal of Scientific Computing, 2002zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Brüger, Arnim +2 more
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International Journal for Numerical Methods in Biomedical Engineering, 2010
AbstractThis paper is concerned with accurate and efficient numerical methods for solving parabolic differential equations. A compact locally one‐dimensional finite difference method is presented, which has second‐order accuracy in time and fourth‐order accuracy in space with respect to discrete H1 norm and L2 norm.
Qin, Jinggang, Wang, Tongke
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AbstractThis paper is concerned with accurate and efficient numerical methods for solving parabolic differential equations. A compact locally one‐dimensional finite difference method is presented, which has second‐order accuracy in time and fourth‐order accuracy in space with respect to discrete H1 norm and L2 norm.
Qin, Jinggang, Wang, Tongke
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Three-Dimensional Coupling Compact Finite Difference Methods for Navier-Stokes Equations
2007The higher-order three- dimensionai coupling compact finite difference methods are proposed for solving the three- dimensional time-dependent incompressible Navier-Stokes equations. In the paper, the higher-order three-dimensional coupling compact finite difference schemes for the Poisson equation and Hemholtz equation, which not only have higher ...
Li Zhang, D. B. Tang, Y. Z. Yang
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High-resolution compact upwind finite difference methods for linear wave phenomena
Applied Numerical Mathematics, 2009zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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Communications in Applied Numerical Methods, 1991
AbstractA new compact second‐order finite‐difference method for solving the time‐dependent one‐dimensional constant‐coefficient advection—diffusion equation is developed. It involves a spread of only two grid points in space and two levels in time.
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AbstractA new compact second‐order finite‐difference method for solving the time‐dependent one‐dimensional constant‐coefficient advection—diffusion equation is developed. It involves a spread of only two grid points in space and two levels in time.
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Nanofluidics for osmotic energy conversion
Nature Reviews Materials, 2021, Liping Wen, Lei Jiang
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High accuracy compact finite difference methods and their applications
Journal of Shanghai University (English Edition), 2006openaire +1 more source
The fundamentals and applications of ferroelectric HfO2
Nature Reviews Materials, 2022Uwe Schroeder +2 more
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