Heat Transfer Characteristics From a Flat Plate to a Gas-Solid Two-Phase Flow Downstream of a Slit Injection

S. Obi; K. Hishida; M. Maeda

doi:10.1115/1.3250546

Heat Transfer Characteristics From a Flat Plate to a Gas-Solid Two-Phase Flow Downstream of a Slit Injection

S. Obi, K. Hishida, M. Maeda

Department of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

The behavior of fine glass particles and their influence on fluid motion are investigated in a flow over aflat plate downstream of a two-dimensional slit injection. Heat transfer characteristics are examined in terms of the mass loading ratio of the particles ranging up to 0.8 and particle size varying from 68.6 to 148 μm in mean diameter. The particles promote turbulence of the fluid in a weakly turbulent flow, but suppress turbulence in a strongly turbulent flow. The heat transfer characteristics along the wall are well correlated to the variation of turbulent flow field due to the effect of the particles.

Original language	English
Pages (from-to)	687-694
Number of pages	8
Journal	Journal of Heat Transfer
Volume	110
Issue number	3
DOIs	https://doi.org/10.1115/1.3250546
Publication status	Published - 1988 Aug

Keywords

Forced convection
Multiphase flows
Turbulence

ASJC Scopus subject areas

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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10.1115/1.3250546

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title = "Heat Transfer Characteristics From a Flat Plate to a Gas-Solid Two-Phase Flow Downstream of a Slit Injection",

abstract = "The behavior of fine glass particles and their influence on fluid motion are investigated in a flow over aflat plate downstream of a two-dimensional slit injection. Heat transfer characteristics are examined in terms of the mass loading ratio of the particles ranging up to 0.8 and particle size varying from 68.6 to 148 μm in mean diameter. The particles promote turbulence of the fluid in a weakly turbulent flow, but suppress turbulence in a strongly turbulent flow. The heat transfer characteristics along the wall are well correlated to the variation of turbulent flow field due to the effect of the particles.",

keywords = "Forced convection, Multiphase flows, Turbulence",

author = "S. Obi and K. Hishida and M. Maeda",

year = "1988",

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language = "English",

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journal = "Journal of Heat Transfer",

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AU - Obi, S.

AU - Hishida, K.

AU - Maeda, M.

PY - 1988/8

Y1 - 1988/8

N2 - The behavior of fine glass particles and their influence on fluid motion are investigated in a flow over aflat plate downstream of a two-dimensional slit injection. Heat transfer characteristics are examined in terms of the mass loading ratio of the particles ranging up to 0.8 and particle size varying from 68.6 to 148 μm in mean diameter. The particles promote turbulence of the fluid in a weakly turbulent flow, but suppress turbulence in a strongly turbulent flow. The heat transfer characteristics along the wall are well correlated to the variation of turbulent flow field due to the effect of the particles.

AB - The behavior of fine glass particles and their influence on fluid motion are investigated in a flow over aflat plate downstream of a two-dimensional slit injection. Heat transfer characteristics are examined in terms of the mass loading ratio of the particles ranging up to 0.8 and particle size varying from 68.6 to 148 μm in mean diameter. The particles promote turbulence of the fluid in a weakly turbulent flow, but suppress turbulence in a strongly turbulent flow. The heat transfer characteristics along the wall are well correlated to the variation of turbulent flow field due to the effect of the particles.

KW - Forced convection

KW - Multiphase flows

KW - Turbulence

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ER -

Heat Transfer Characteristics From a Flat Plate to a Gas-Solid Two-Phase Flow Downstream of a Slit Injection

Abstract

Keywords

ASJC Scopus subject areas

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