Publication detail

Influence of Water Temperature on Cooling Intensity of Mist Nozzles in Continuous Casting

RAUDENSKÝ, M. HNÍZDIL, M. LEE, S. KIM, S. HWANG, J.

Original Title

Influence of Water Temperature on Cooling Intensity of Mist Nozzles in Continuous Casting

English Title

Influence of Water Temperature on Cooling Intensity of Mist Nozzles in Continuous Casting

Type

conference paper

Language

en

Original Abstract

Small mist nozzles used in continuous casting were tested for heat transfer intensity. These nozzles are used in the secondary cooling area of a steel slab casting machine. Impact pressure distribution was measured first. Laboratory measurements of cooling intensity (heat transfer coefficient distribution) were performed with a variable water temperature.

English abstract

Small mist nozzles used in continuous casting were tested for heat transfer intensity. These nozzles are used in the secondary cooling area of a steel slab casting machine. Impact pressure distribution was measured first. Laboratory measurements of cooling intensity (heat transfer coefficient distribution) were performed with a variable water temperature.

Keywords

mist nozzles, cooling intensity, continuous casting

RIV year

2011

Released

01.12.2011

Location

Ljubljana 2011

ISBN

978-961-92518-4-3

Book

19th Conference on Materials and Technology

Pages from

60

Pages to

70

Pages count

10

BibTex


@inproceedings{BUT75829,
  author="Miroslav {Raudenský} and Milan {Hnízdil} and S.H. {Lee} and S.Y. {Kim} and J.Y. {Hwang}",
  title="Influence of Water Temperature on Cooling Intensity of Mist Nozzles in Continuous Casting",
  annote="Small mist nozzles used in continuous casting were tested for heat transfer intensity. These nozzles are used in the secondary cooling area of a steel slab casting machine. Impact pressure distribution was measured first. Laboratory measurements of cooling intensity (heat transfer coefficient distribution) were performed with a variable water temperature.",
  booktitle="19th Conference on Materials and Technology",
  chapter="75829",
  howpublished="electronic, physical medium",
  year="2011",
  month="december",
  pages="60--70",
  type="conference paper"
}