Publication detail
Experimental Investigation of a Heat Transfer Coefficient for Aluminum Alloys
BARTULI, E. GUZEJ, M. KOMÍNEK, J. HORSKÝ, J.
English title
Experimental Investigation of a Heat Transfer Coefficient for Aluminum Alloys
Type
conference paper
Language
en
Original abstract
Methods to optimize ingot jet cooling during continuous aluminum casting have been experimentally investigated. An aluminum sample with a height of 200 mm and thickness of 20 mm have been heated to 475oC and been cooled using two methods – continuous and pulse regimes. The cooling water flow rate and the duration of the pulsation phases have been changed in the tests. The temperature field along the sample length has been measured, and the heat-transfer coefficients on the aluminum surface have been determined.
English abstract
Methods to optimize ingot jet cooling during continuous aluminum casting have been experimentally investigated. An aluminum sample with a height of 200 mm and thickness of 20 mm have been heated to 475oC and been cooled using two methods – continuous and pulse regimes. The cooling water flow rate and the duration of the pulsation phases have been changed in the tests. The temperature field along the sample length has been measured, and the heat-transfer coefficients on the aluminum surface have been determined.
Keywords in English
aluminum casting process; heat transfer coefficient; inverse task; thermocouples
Released
07.09.2015
Publisher
A.V. Lykau Institute of Heat and Mass Transfer of the National Academy of Sciences of Belarus
Location
Minsk
ISBN
978-985-6456-99-5
Book
Heat Pipes, Heat Pumps, Refrigerators, Power Sources
Edition number
2
Pages from–to
56–62
Pages count
7
BIBTEX
@inproceedings{BUT147611,
author="Erik {Bartuli} and Tereza {Kůdelová} and Michal {Guzej} and Jan {Komínek} and Jaroslav {Horský},
title="Experimental Investigation of a Heat Transfer Coefficient for Aluminum Alloys",
booktitle="Heat Pipes, Heat Pumps, Refrigerators, Power Sources",
year="2015",
month="September",
pages="56--62",
publisher=" A.V. Lykau Institute of Heat and Mass Transfer of the National Academy of Sciences of Belarus",
address="Minsk",
isbn="978-985-6456-99-5"
}