DISSIPATIVE PARTICLE DYNAMICS: INTRODUCTION, METHODOLOGY AND COMPLEX FLUID APPLICATIONS - A REVIEW

@article{Moeendarbary2009DISSIPATIVEPD,
  title={DISSIPATIVE PARTICLE DYNAMICS: INTRODUCTION, METHODOLOGY AND COMPLEX FLUID APPLICATIONS - A REVIEW},
  author={E. Moeendarbary and T. Ng and M. Zangeneh},
  journal={International Journal of Applied Mechanics},
  year={2009},
  volume={01},
  pages={737-763}
}
The dissipative particle dynamics (DPD) technique is a relatively new mesoscale technique which was initially developed to simulate hydrodynamic behavior in mesoscopic complex fluids. It is essentially a particle technique in which molecules are clustered into the said particles, and this coarse graining is a very important aspect of the DPD as it allows significant computational speed-up. This increased computational efficiency, coupled with the recent advent of high performance computing, has… Expand

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References

SHOWING 1-10 OF 192 REFERENCES
Multiscale dissipative particle dynamics.
A comparative study between dissipative particle dynamics and molecular dynamics for simple- and complex-geometry flows.
Combined length scales in dissipative particle dynamics.
Dynamical geometry for multiscale dissipative particle dynamics
Mapping of dissipative particle dynamics in fluctuating hydrodynamics simulations.
  • R. Qiao, P. He
  • Physics, Medicine
  • The Journal of chemical physics
  • 2008
...
1
2
3
4
5
...