Heat-Transfer Distribution Around a Cylinder in Pulsating Crossflow

C. E. Andraka; T. E. Diller

Source: Journal of Engineering for Gas Turbines and Power:;1985:;volume( 107 ):;issue: 004::page 976

Author:

C. E. Andraka

T. E. Diller

DOI: 10.1115/1.3239844

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: The effects of sinusoidal flow pulsations on the heat transfer from a cylinder to a crossflow at Re = 50,000 were investigated. A range of different pulsation amplitudes of up to 25% and frequencies both above and below the natural shedding frequency were used. The pulsating flow was clean and well organized. It had greater than 95% of the power at the fundamental frequency with a low turbulence level (less than 0.5%). The time-averaged local heat transfer was experimentally measured for a constant-temperature surface-boundary condition using a small heat flux gage in the cylinder wall. Distributions were obtained by rotating the cylinder through 180 deg. The experiments showed no significant increase of heat transfer due to the flow pulsation in either the wake or attached boundary layer region. Small local increases were found near the separation point.

keyword(s): Heat transfer , Cylinders , Flow (Dynamics) , Temperature , Frequency , Pulsatile flow , Heat flux , Separation (Technology) , Gages , Turbulence , Wakes AND Boundary layers ,

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Heat-Transfer Distribution Around a Cylinder in Pulsating Crossflow

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Journal of Engineering for Gas Turbines and Power

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contributor author	C. E. Andraka
contributor author	T. E. Diller
date accessioned	2017-05-08T23:20:04Z
date available	2017-05-08T23:20:04Z
date copyright	October, 1985
date issued	1985
identifier issn	1528-8919
identifier other	JETPEZ-26626#976_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/99755
description abstract	The effects of sinusoidal flow pulsations on the heat transfer from a cylinder to a crossflow at Re = 50,000 were investigated. A range of different pulsation amplitudes of up to 25% and frequencies both above and below the natural shedding frequency were used. The pulsating flow was clean and well organized. It had greater than 95% of the power at the fundamental frequency with a low turbulence level (less than 0.5%). The time-averaged local heat transfer was experimentally measured for a constant-temperature surface-boundary condition using a small heat flux gage in the cylinder wall. Distributions were obtained by rotating the cylinder through 180 deg. The experiments showed no significant increase of heat transfer due to the flow pulsation in either the wake or attached boundary layer region. Small local increases were found near the separation point.
publisher	The American Society of Mechanical Engineers (ASME)
title	Heat-Transfer Distribution Around a Cylinder in Pulsating Crossflow
type	Journal Paper
journal volume	107
journal issue	4
journal title	Journal of Engineering for Gas Turbines and Power
identifier doi	10.1115/1.3239844
journal fristpage	976
journal lastpage	982
identifier eissn	0742-4795
keywords	Heat transfer
keywords	Cylinders
keywords	Flow (Dynamics)
keywords	Temperature
keywords	Frequency
keywords	Pulsatile flow
keywords	Heat flux
keywords	Separation (Technology)
keywords	Gages
keywords	Turbulence
keywords	Wakes AND Boundary layers
tree	Journal of Engineering for Gas Turbines and Power:;1985:;volume( 107 ):;issue: 004
contenttype	Fulltext

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