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ZAHRADNÍK, R. BOHÁČEK, J. KOTRBÁČEK, P.
Original Title
Experimental investigation of heat transfer between hot air nozzle flow and cylinder
English Title
Author(s)
ZAHRADNÍK, R.; BOHÁČEK, J.; KOTRBÁČEK, P.
Type
článek v časopise ve Web of Science, Jimp
Language
en
Original Abstract
A variety of experimental measurements were performed to clarify the influence of air pressure and distance from a nozzle outlet on the heat transfer intensity between a cylinder's surface and the hot air flowing around the cylinder ,which is placed in a rectangular air channel. The surface temperatures of five different surface points and air temperatures are recorded during each experiment. The heat transfer coefficient is calculated from the following recorded parameters: air temperature, calculated surface temperature, and heat flux. The surface temperature and the heat flux are obtained from finite element analyses using ANSYS. The boundary conditions for these analyses are taken from the temperature history records. Three different values of air pressures and distances are tested. The distribution of the heat transfer coefficient around the cylindrical surface is determined for these testing conditions. Results are presented in the form of graphs.
English abstract
Keywords
heat transfer coefficient; ANSYS, HTC distribution, cylinder, hot air flow
RIV year
2012
Released
Publisher
EDP SCIENCES
Location
Francie
ISBN
2100-014X
Periodical
EPJ Web of Conferences
Year of study
25
Number
4
State
FR
Pages from
01102-p.1
Pages to
01102-p.6
Pages count
6
URL
http://dx.doi.org/10.1051/epjconf/20122501102
Full text in the Digital Library
http://hdl.handle.net/11012/156795
BibTex
@article{BUT93210, author="Radek {Zahradník} and Jan {Boháček} and Petr {Kotrbáček}", title="Experimental investigation of heat transfer between hot air nozzle flow and cylinder", annote="A variety of experimental measurements were performed to clarify the influence of air pressure and distance from a nozzle outlet on the heat transfer intensity between a cylinder's surface and the hot air flowing around the cylinder ,which is placed in a rectangular air channel. The surface temperatures of five different surface points and air temperatures are recorded during each experiment. The heat transfer coefficient is calculated from the following recorded parameters: air temperature, calculated surface temperature, and heat flux. The surface temperature and the heat flux are obtained from finite element analyses using ANSYS. The boundary conditions for these analyses are taken from the temperature history records. Three different values of air pressures and distances are tested. The distribution of the heat transfer coefficient around the cylindrical surface is determined for these testing conditions. Results are presented in the form of graphs.", address="EDP SCIENCES", chapter="93210", doi="10.1051/epjconf/20122501102", institution="EDP SCIENCES", number="4", volume="25", year="2012", month="april", pages="01102-p.1--01102-p.6", publisher="EDP SCIENCES", type="journal article in Web of Science" }