Mass transfer from a vertical flat plate due to a constant upward flow

D. Mcdonnell; B. Redmond; L. J. Crane

doi:10.1002/zamm.201100163

Mass transfer from a vertical flat plate due to a constant upward flow

D. Mcdonnell, B. Redmond, L. J. Crane

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

Abstract

This paper examines the mass transfer from the vertical flat surface of a soluble material due to a constant upward flow. The mass transfer rate due to this upward flow is calculated and used to obtain the distance along the surface at which the boundary layer separates. For relatively large velocities no separation will occur and the solution approaches that of forced convection on a horizontal surface. This paper examines the mass transfer from the vertical flat surface of a soluble material due to a constant upward flow. The mass transfer rate due to this upward flow is calculated and used to obtain the distance along the surface at which the boundary layer separates. For relatively large velocities no separation will occur and the solution approaches that of forced convection on a horizontal surface.

Original language	English
Pages (from-to)	111-116
Number of pages	6
Journal	ZAMM Zeitschrift fur Angewandte Mathematik und Mechanik
Volume	95
Issue number	1
DOIs	https://doi.org/10.1002/zamm.201100163
Publication status	Published - 1 Jan 2015

Keywords

Boundary layer separation
Forced convection
Mass transfer
Vertical plate

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abstract = "This paper examines the mass transfer from the vertical flat surface of a soluble material due to a constant upward flow. The mass transfer rate due to this upward flow is calculated and used to obtain the distance along the surface at which the boundary layer separates. For relatively large velocities no separation will occur and the solution approaches that of forced convection on a horizontal surface. This paper examines the mass transfer from the vertical flat surface of a soluble material due to a constant upward flow. The mass transfer rate due to this upward flow is calculated and used to obtain the distance along the surface at which the boundary layer separates. For relatively large velocities no separation will occur and the solution approaches that of forced convection on a horizontal surface.",

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AU - Redmond, B.

AU - Crane, L. J.

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N2 - This paper examines the mass transfer from the vertical flat surface of a soluble material due to a constant upward flow. The mass transfer rate due to this upward flow is calculated and used to obtain the distance along the surface at which the boundary layer separates. For relatively large velocities no separation will occur and the solution approaches that of forced convection on a horizontal surface. This paper examines the mass transfer from the vertical flat surface of a soluble material due to a constant upward flow. The mass transfer rate due to this upward flow is calculated and used to obtain the distance along the surface at which the boundary layer separates. For relatively large velocities no separation will occur and the solution approaches that of forced convection on a horizontal surface.

AB - This paper examines the mass transfer from the vertical flat surface of a soluble material due to a constant upward flow. The mass transfer rate due to this upward flow is calculated and used to obtain the distance along the surface at which the boundary layer separates. For relatively large velocities no separation will occur and the solution approaches that of forced convection on a horizontal surface. This paper examines the mass transfer from the vertical flat surface of a soluble material due to a constant upward flow. The mass transfer rate due to this upward flow is calculated and used to obtain the distance along the surface at which the boundary layer separates. For relatively large velocities no separation will occur and the solution approaches that of forced convection on a horizontal surface.

KW - Boundary layer separation

KW - Forced convection

KW - Mass transfer

KW - Vertical plate

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JF - ZAMM Zeitschrift fur Angewandte Mathematik und Mechanik

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Mass transfer from a vertical flat plate due to a constant upward flow

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Keywords

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