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Abstract

The dynamics of a drop on a mesoscopic scale is investigated by using the many-body dissipative particle dynamic (MDPD) method. The formation of liquid-vapor coexistence interface in the MDPD system is explored. The simulations of the pressure inside/outside the drop and the surface tension are carried out, and it is verified that Laplace’s law is satisfied in our simulation. Different contact angles are obtained by changing conservative interaction parameters between particles. The relationship between MDPD paremeters and contact angles is discussed. Based on the results, the flow behaviors of a drop moving in grooved microcannels are simulated. The results in this paper are useful in studying the fluid with free surfaces flow behavior on rough surface.

Keywords:

many-body dissipative particle dynamics/
freesurface/
droplet/
static contact angle

Authors and contacts

Zhou Nan,
Chen Shuo

1.
Funds:Project supported by the National Natural Science Foundation of China (Grant Nos. 51276130, 10872152) and the Specia-lized Research Fund for the Doctoral Program of Higher Education of China (Grant No. 20120072110037).

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Vol. 63, Issue 8 - 2014-04-20

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