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Hydrodynamic response of an Antarctic glacial bay to cross-bay winds and its potential impact on primary production. [PDF]
Sci RepOsińska M, Herman A.
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Wear Resistance Enhancement of Rotary Tillage Blades Through Structural Optimization and Surface Strengthening. [PDF]
Materials (Basel)Zou Z, Li J, Wang X, Tang C, Chen X.
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Boulder concentration effects on sediment transport and deposition. [PDF]
Sci RepTeng P +3 more
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Interaction between waves and vegetation. [PDF]
Sci RepMossa M, De Padova D.
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GPU-accelerated meshfree computational framework for modeling the friction surfacing process. [PDF]
Comput Part MechElbossily A +6 more
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Numerical modeling of abrasive waterjet to optimize rock cutting parameters. [PDF]
Sci RepMahdevari S +2 more
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Incompressible smoothed particle hydrodynamics
Journal of Computational Physics, 2007zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Marco Ellero, Mar Serrano, Pep Español
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Smoothed particle hydrodynamics
Reports on Progress in Physics, 2005 Smoothed Particle Hydrodynamics (SPH) is a unique numerical method widely used for astrophysical problems since it involves no spatial grid. Rather, fluid quantities are carried by a set of Lagrangian `particles' which move with the flow, meaning that complicated dynamics and asymmetric phenomena are treated with ease.
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AN OVERVIEW ON SMOOTHED PARTICLE HYDRODYNAMICS
International Journal of Computational Methods, 2008This paper presents an overview on smoothed particle hydrodynamics (SPH), which is a meshfree, particle method of Lagrangian nature. In theory, the interpolation and approximations of the SPH method and the corresponding numerical errors are analyzed. The inherent particle inconsistency has been discussed in detail.
Liu, M. B., Liu, G. R., Zong, Z.
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Cylindrical Smoothed Particle Hydrodynamics
Journal of Computational Physics, 1993Smoothed particle hydrodynamics (SPH) is formulated in two-dimensional axisymmetric coordinates. Starting with a three-dimensional Cartesian representation of SPH, we integrate out the angular component and find a two-dimensional cylindrical description. A smoothed ``particle'' in this formulation becomes a smoothed ``torus''.
Petschek, A. G., Libersky, L. D.
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