Microchannels With Manufacturing Roughness Levels

S. A. Weaver; M. D. Barringer; K. A. Thole

Source: Journal of Turbomachinery:;2011:;volume( 133 ):;issue: 004::page 41014

Author:

S. A. Weaver

M. D. Barringer

K. A. Thole

DOI: 10.1115/1.4002991

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: There are heat transfer advantages to reducing the size of channels used for internal cooling gas turbine components. As channel sizes decrease, however, there are concerns as to how manufacturing surface roughness may affect the channels’ expected pressure drop and heat transfer. For microchannel size scales, in particular, there is relatively little data indicating the effect of manufacturing roughness levels. The focus of this paper is to describe the development and validation of a testing method for microchannels as well as to determine the effect of manufacturing roughness levels on these small channels. Convective heat transfer coefficients and friction factors were deduced based on measured flow conditions and known boundary conditions. It was shown that at an average roughness height of 6.1 μm, which corresponded to 2.2% of the channel height, heat transfer was augmented by 1.1–1.2, while the friction factor was augmented significantly more by 2.1–2.6 over a smooth channel.

keyword(s): Flow (Dynamics) , Friction , Temperature , Heat transfer , Channels (Hydraulic engineering) , Manufacturing , Surface roughness , Microchannels , Cooling , Pressure drop , Convection AND Copper ,

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Microchannels With Manufacturing Roughness Levels

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contributor author	S. A. Weaver
contributor author	M. D. Barringer
contributor author	K. A. Thole
date accessioned	2017-05-09T00:47:18Z
date available	2017-05-09T00:47:18Z
date copyright	October, 2011
date issued	2011
identifier issn	0889-504X
identifier other	JOTUEI-28776#041014_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/147765
description abstract	There are heat transfer advantages to reducing the size of channels used for internal cooling gas turbine components. As channel sizes decrease, however, there are concerns as to how manufacturing surface roughness may affect the channels’ expected pressure drop and heat transfer. For microchannel size scales, in particular, there is relatively little data indicating the effect of manufacturing roughness levels. The focus of this paper is to describe the development and validation of a testing method for microchannels as well as to determine the effect of manufacturing roughness levels on these small channels. Convective heat transfer coefficients and friction factors were deduced based on measured flow conditions and known boundary conditions. It was shown that at an average roughness height of 6.1 μm, which corresponded to 2.2% of the channel height, heat transfer was augmented by 1.1–1.2, while the friction factor was augmented significantly more by 2.1–2.6 over a smooth channel.
publisher	The American Society of Mechanical Engineers (ASME)
title	Microchannels With Manufacturing Roughness Levels
type	Journal Paper
journal volume	133
journal issue	4
journal title	Journal of Turbomachinery
identifier doi	10.1115/1.4002991
journal fristpage	41014
identifier eissn	1528-8900
keywords	Flow (Dynamics)
keywords	Friction
keywords	Temperature
keywords	Heat transfer
keywords	Channels (Hydraulic engineering)
keywords	Manufacturing
keywords	Surface roughness
keywords	Microchannels
keywords	Cooling
keywords	Pressure drop
keywords	Convection AND Copper
tree	Journal of Turbomachinery:;2011:;volume( 133 ):;issue: 004
contenttype	Fulltext

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