N. A. Adams

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2012

13 K. K. So, X. Y. Hu, N. A. Adams: Anti-diffusion interface sharpening technique for two-phase compressible flow simulations. J. Comput. Physics 231(11): 4304-4323 (2012)

2011

12 L. H. Han, T. Indinger, X. Y. Hu, N. A. Adams: Wavelet-based adaptive multi-resolution solver on heterogeneous parallel architecture for computational fluid dynamics. Computer Science - R&D 26(3-4): 197-203 (2011)

11 K. K. So, X. Y. Hu, N. A. Adams: Anti-diffusion method for interface steepening in two-phase incompressible flow. J. Comput. Physics 230(13): 5155-5177 (2011)

10 X. Y. Hu, N. A. Adams: Scale separation for implicit large eddy simulation. J. Comput. Physics 230(19): 7240-7249 (2011)

2010

9 S. Adami, X. Y. Hu, N. A. Adams: A new surface-tension formulation for multi-phase SPH using a reproducing divergence approximation. J. Comput. Physics 229(13): 5011-5021 (2010)

8 S. Litvinov, M. Ellero, X. Y. Hu, N. A. Adams: A splitting scheme for highly dissipative smoothed particle dynamics. J. Comput. Physics 229(15): 5457-5464 (2010)

7 M. Meyer, A. Devesa, S. Hickel, X. Y. Hu, N. A. Adams: A conservative immersed interface method for Large-Eddy Simulation of incompressible flows. J. Comput. Physics 229(18): 6300-6317 (2010)

6 X. Y. Hu, Q. Wang, N. A. Adams: An adaptive central-upwind weighted essentially non-oscillatory scheme. J. Comput. Physics 229(23): 8952-8965 (2010)

5 S. Adami, X. Y. Hu, N. A. Adams: A conservative SPH method for surfactant dynamics. J. Comput. Physics 229(5): 1909-1926 (2010)

2009

4 E. Riegel, T. Indinger, N. A. Adams: Numerical simulation of fluid flow on complex geometries using the Lattice-Boltzmann method and CUDA-enabled GPUs. SIGGRAPH Posters 2009

3 E. Riegel, T. Indinger, N. A. Adams: Implementation of a Lattice-Boltzmann method for numerical fluid mechanics using the nVIDIA CUDA technology. Computer Science - R&D 23(3-4): 241-247 (2009)

2 X. Y. Hu, N. A. Adams, G. Iaccarino: On the HLLC Riemann solver for interface interaction in compressible multi-fluid flow. J. Comput. Physics 228(17): 6572-6589 (2009)

1 X. Y. Hu, N. A. Adams: A constant-density approach for incompressible multi-phase SPH. J. Comput. Physics 228(6): 2082-2091 (2009)

	2012
13		K. K. So, X. Y. Hu, N. A. Adams: Anti-diffusion interface sharpening technique for two-phase compressible flow simulations. J. Comput. Physics 231(11): 4304-4323 (2012)
	2011
12		L. H. Han, T. Indinger, X. Y. Hu, N. A. Adams: Wavelet-based adaptive multi-resolution solver on heterogeneous parallel architecture for computational fluid dynamics. Computer Science - R&D 26(3-4): 197-203 (2011)
11		K. K. So, X. Y. Hu, N. A. Adams: Anti-diffusion method for interface steepening in two-phase incompressible flow. J. Comput. Physics 230(13): 5155-5177 (2011)
10		X. Y. Hu, N. A. Adams: Scale separation for implicit large eddy simulation. J. Comput. Physics 230(19): 7240-7249 (2011)
	2010
9		S. Adami, X. Y. Hu, N. A. Adams: A new surface-tension formulation for multi-phase SPH using a reproducing divergence approximation. J. Comput. Physics 229(13): 5011-5021 (2010)
8		S. Litvinov, M. Ellero, X. Y. Hu, N. A. Adams: A splitting scheme for highly dissipative smoothed particle dynamics. J. Comput. Physics 229(15): 5457-5464 (2010)
7		M. Meyer, A. Devesa, S. Hickel, X. Y. Hu, N. A. Adams: A conservative immersed interface method for Large-Eddy Simulation of incompressible flows. J. Comput. Physics 229(18): 6300-6317 (2010)
6		X. Y. Hu, Q. Wang, N. A. Adams: An adaptive central-upwind weighted essentially non-oscillatory scheme. J. Comput. Physics 229(23): 8952-8965 (2010)
5		S. Adami, X. Y. Hu, N. A. Adams: A conservative SPH method for surfactant dynamics. J. Comput. Physics 229(5): 1909-1926 (2010)
	2009
4		E. Riegel, T. Indinger, N. A. Adams: Numerical simulation of fluid flow on complex geometries using the Lattice-Boltzmann method and CUDA-enabled GPUs. SIGGRAPH Posters 2009
3		E. Riegel, T. Indinger, N. A. Adams: Implementation of a Lattice-Boltzmann method for numerical fluid mechanics using the nVIDIA CUDA technology. Computer Science - R&D 23(3-4): 241-247 (2009)
2		X. Y. Hu, N. A. Adams, G. Iaccarino: On the HLLC Riemann solver for interface interaction in compressible multi-fluid flow. J. Comput. Physics 228(17): 6572-6589 (2009)
1		X. Y. Hu, N. A. Adams: A constant-density approach for incompressible multi-phase SPH. J. Comput. Physics 228(6): 2082-2091 (2009)

Coauthor Index

1 S. Adami [5] [9]

2 A. Devesa [7]

3 M. Ellero [8]

4 L. H. Han [12]

5 S. Hickel [7]

6 X. Y. Hu [1] [2] [5] [6] [7] [8] [9] [10] [11] [12] [13]

7 G. Iaccarino [2]

8 T. Indinger [3] [4] [12]

9 S. Litvinov [8]

10 M. Meyer [7]

11 E. Riegel [3] [4]

12 K. K. So [11] [13]

13 Q. Wang [6]

Last update Sat May 26 04:23:17 2012 CET by the DBLP Team —

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1	S. Adami	[5] [9]
2	A. Devesa	[7]
3	M. Ellero	[8]
4	L. H. Han	[12]
5	S. Hickel	[7]
6	X. Y. Hu	[1] [2] [5] [6] [7] [8] [9] [10] [11] [12] [13]
7	G. Iaccarino	[2]
8	T. Indinger	[3] [4] [12]
9	S. Litvinov	[8]
10	M. Meyer	[7]
11	E. Riegel	[3] [4]
12	K. K. So	[11] [13]
13	Q. Wang	[6]