Application of a high-order macroscopic approach to a force-driven Poiseuille flow in the slip and transition regimes

Simon Mizzi; X.J. Gu; David Emerson; Robert W. Barber; Jason Reese

Application of a high-order macroscopic approach to a force-driven Poiseuille flow in the slip and transition regimes

Simon Mizzi, X.J. Gu, David Emerson, Robert W. Barber, Jason Reese

Mechanical And Aerospace Engineering

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

The paper reviews detailed informations about the performance of R13 for Poiseuille flow in micro-channels and discusses how microvariables enter and influence the classical fluid dynamical relations.

Original language	English
Title of host publication	Proceedings of the Micro/Nanoscale Heat Transfer International Conference (MNHT2008)
Publication status	Published - 6 Jan 2008

Keywords

microchannels
flow dynamics
heat transfer
design engineering

Cite this

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title = "Application of a high-order macroscopic approach to a force-driven Poiseuille flow in the slip and transition regimes",

abstract = "The paper reviews detailed informations about the performance of R13 for Poiseuille flow in micro-channels and discusses how microvariables enter and influence the classical fluid dynamical relations.",

keywords = "microchannels, flow dynamics, heat transfer, design engineering",

author = "Simon Mizzi and X.J. Gu and David Emerson and Barber, {Robert W.} and Jason Reese",

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AU - Mizzi, Simon

AU - Gu, X.J.

AU - Emerson, David

AU - Barber, Robert W.

AU - Reese, Jason

PY - 2008/1/6

Y1 - 2008/1/6

N2 - The paper reviews detailed informations about the performance of R13 for Poiseuille flow in micro-channels and discusses how microvariables enter and influence the classical fluid dynamical relations.

AB - The paper reviews detailed informations about the performance of R13 for Poiseuille flow in micro-channels and discusses how microvariables enter and influence the classical fluid dynamical relations.

KW - microchannels

KW - flow dynamics

KW - heat transfer

KW - design engineering

UR - http://www.asmeconferences.org/MNHT08/

M3 - Chapter

SN - 0791838137

BT - Proceedings of the Micro/Nanoscale Heat Transfer International Conference (MNHT2008)

ER -

Application of a high-order macroscopic approach to a force-driven Poiseuille flow in the slip and transition regimes

Abstract

Keywords

Other files and links

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Fluid Flow and Heat Transfer in Gas Microsystems

Cite this

Application of a high-order macroscopic approach to a force-driven Poiseuille flow in the slip and transition regimes

Abstract

Keywords

Other files and links

Fingerprint

Projects

Fluid Flow and Heat Transfer in Gas Microsystems

Cite this