P
Peter Huang
Researcher at Binghamton University
Publications - 54
Citations - 2034
Peter Huang is an academic researcher from Binghamton University. The author has contributed to research in topics: Velocimetry & Particle tracking velocimetry. The author has an hindex of 22, co-authored 49 publications receiving 1828 citations. Previous affiliations of Peter Huang include Advanced Technology Center & University of Minnesota.
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A current density conservative scheme for incompressible MHD flows at a low magnetic Reynolds number. Part I: On a rectangular collocated grid system
TL;DR: It is shown that both ''conservative'' and ''consistent'' are important properties of the scheme to get an accurate result for high Hartmann number MHD flows with a strongly non-uniform mesh employed to resolve the Hartmann layers and side layers of Hunt's conductive walls and Shercliff's insulated walls.
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A current density conservative scheme for incompressible MHD flows at a low magnetic Reynolds number. Part II: On an arbitrary collocated mesh
TL;DR: It is proved that the simple interpolation scheme used in the Part I of this series of papers is conservative on a rectangular grid and can keep the total momentum conservative in a rectangular Grid.
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Direct simulation of the motion of solid particles in Couette and Poiseuille flows of viscoelastic fluids
TL;DR: In this article, the results of direct numerical simulation of the motion of a two-dimensional circular cylinder in Couette flow and in Poiseuille flow of an Oldroyd-B fluid are considered.
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Direct measurement of slip velocities using three-dimensional total internal reflection velocimetry
TL;DR: In this article, the existence and magnitude of slip velocities between deionized water and a smooth glass surface is studied experimentally using total internal reflection velocimetry (TIRV).
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Direct simulation of the sedimentation of elliptic particles in Oldroyd-B fluids
TL;DR: In this paper, the authors studied cross-stream migration and stable orientations of elliptic particles falling in an Oldroyd-B fluid in a channel and showed that the normal component of the extra stress on a rigid body vanishes; lateral forces and torques are determined by the pressure.