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ORCIDJournal of Computational Physics, Volume 278
Volume 278, December 2014
- Vladimir Sabelnikov, Andrey Yu. Ovsyannikov
, Mikhael Gorokhovski:
Modified level set equation and its numerical assessment. 1-30 - Paul Tranquilli, Adrian Sandu:
Exponential-Krylov methods for ordinary differential equations. 31-46 - Michael Dumbser, Olindo Zanotti, Raphaël Loubère, Steven Diot:
A posteriori subcell limiting of the discontinuous Galerkin finite element method for hyperbolic conservation laws. 47-75 - Sebastian Liska, Tim Colonius:
A parallel fast multipole method for elliptic difference equations. 76-91 - A. Mosahebi, Siva Nadarajah:
An implicit and adaptive nonlinear frequency domain approach for periodic viscous flows. 92-116 - Wouter Dekeyser, Detlev Reiter, Martine Baelmans:
Automated divertor target design by adjoint shape sensitivity analysis and a one-shot method. 117-132 - Felipe Montefuscolo, Fabricio S. Sousa, Gustavo C. Buscaglia:
High-order ALE schemes for incompressible capillary flows. 133-147 - Xiaobo Gong, Zhaoxin Gong, Huaxiong Huang:
An immersed boundary method for mass transfer across permeable moving interfaces. 148-168 - Yanfeng Wang, Zhi-Feng Liu, Xiao-Hong Wang:
Finite analytic numerical method for three-dimensional fluid flow in heterogeneous porous media. 169-181 - Dmitri Priimak:
Finite difference numerical method for the superlattice Boltzmann transport equation and case comparison of CPU(C) and GPU(CUDA) implementations. 182-192 - Benjamin Grier, Edward Alyanak, Michael White, José Camberos, Richard Figliola:
Numerical integration techniques for discontinuous manufactured solutions. 193-203 - Victor M. Calo, Yalchin Efendiev, Juan Galvis, Mehdi Ghommem:
Multiscale empirical interpolation for solving nonlinear PDEs. 204-220 - Kensuke Yokoi:
A density-scaled continuum surface force model within a balanced force formulation. 221-228 - Adrien Gomar, Quentin Bouvy, Frédéric Sicot, Guillaume Dufour, Paola Cinnella, Benjamin François:
Convergence of Fourier-based time methods for turbomachinery wake passing problems. 229-256 - Ercília Sousa:
An explicit high order method for fractional advection diffusion equations. 257-274 - Chuanfu Xu, Xiaogang Deng, Lilun Zhang, Jianbin Fang, Guangxue Wang, Yi Jiang, Wei Cao, Yonggang Che, Yongxian Wang, Zhenghua Wang, Wei Liu, Xinghua Cheng:
Collaborating CPU and GPU for large-scale high-order CFD simulations with complex grids on the TianHe-1A supercomputer. 275-297 - Duc Duy Nguyen, Shan Zhao:
Time-domain matched interface and boundary (MIB) modeling of Debye dispersive media with curved interfaces. 298-325 - A. J. Kriel:
A flux splitting method for the Euler equations. 326-347 - Zhiliang Xu, Xu-Yan Chen, Yingjie Liu:
A new Runge-Kutta discontinuous Galerkin method with conservation constraint to improve CFL condition for solving conservation laws. 348-377 - Yogesh G. Bhumkar, Tony W. H. Sheu, Tapan K. Sengupta:
A dispersion relation preserving optimized upwind compact difference scheme for high accuracy flow simulations. 378-399 - Xuan Zhao, Yang Yang, Charles E. Seyler:
A positivity-preserving semi-implicit discontinuous Galerkin scheme for solving extended magnetohydrodynamics equations. 400-415 - Benjamin E. Peigney, Olivier Larroche, Vladimir Tikhonchuk:
Fokker-Planck kinetic modeling of suprathermal α-particles in a fusion plasma. 416-444 - Huafei Sun, David L. Darmofal:
An adaptive simplex cut-cell method for high-order discontinuous Galerkin discretizations of elliptic interface problems and conjugate heat transfer problems. 445-468 - R. Sreekanth, J. Barry Greenberg, Y. Levy:
An approximate linearized characteristic Riemann solver based on blending of Riemann invariants. 469-484 - James Kent, Jared P. Whitehead, Christiane Jablonowski, Richard B. Rood:
Determining the effective resolution of advection schemes. Part I: Dispersion analysis. 485-496 - James Kent, Christiane Jablonowski, Jared P. Whitehead, Richard B. Rood:
Determining the effective resolution of advection schemes. Part II: Numerical testing. 497-508
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