Publication detail
THE EFFECT OF WATER TEMPERATURE ON COOLING DURING HIGH PRESSURE WATER DESCALING
POHANKA, M. VOTAVOVÁ, H. RAUDENSKÝ, M. HWANG, J. Y. YOU, J. W. LEE, S. H.
Original Title
THE EFFECT OF WATER TEMPERATURE ON COOLING DURING HIGH PRESSURE WATER DESCALING
Type
journal article in Web of Science
Language
English
Original Abstract
Production of hot rolled steel plates is connected with high temperatures at which steel reacts with oxygen in the atmosphere and oxide layers (scales) are formed on the surface. Scales affect the surface quality of the product and must be eliminated before the product enters any further rolling operations. The scales are usually removed by high pressure flat jet water nozzles in a process called hydraulic descaling. One side effect of this form of descaling is intense cooling of the product, which runs counter to the purpose of descaling. One way to decrease this effect is to use water at higher temperatures. Laboratory experiments were performed in order to determine the degree of influence of water temperature on the intensity of cooling. Temperature measurements were used as an input for inverse algorithm calculations and heat transfer coefficient determinations. The variables were computed as a function of time and position. The results were compared and significant decrease in the cooling intensity was observed. The findings are discussed in detail.
Keywords
nozzle, high pressure, descaling, water temperature, cooling, heat transfer coefficient
Authors
POHANKA, M.; VOTAVOVÁ, H.; RAUDENSKÝ, M.; HWANG, J. Y.; YOU, J. W.; LEE, S. H.
Released
1. 1. 2018
Publisher
Vinča institute of nuclear sciences
Location
Bělehrad, Srbsko
ISBN
0354-9836
Periodical
Thermal Science
Year of study
6
Number
22
State
Republic of Serbia
Pages from
2965
Pages to
2971
Pages count
7
URL
BibTex
@article{BUT138161,
author="POHANKA, M. and VOTAVOVÁ, H. and RAUDENSKÝ, M. and HWANG, J. Y. and YOU, J. W. and LEE, S. H.",
title="THE EFFECT OF WATER TEMPERATURE ON COOLING DURING HIGH PRESSURE WATER DESCALING",
journal="Thermal Science",
year="2018",
volume="6",
number="22",
pages="2965--2971",
doi="10.2298/TSCI160209163P",
issn="0354-9836",
url="http://www.doiserbia.nb.rs/img/doi/0354-9836/2018/0354-98361700163P.pdf"
}