Publication detail

Limitation of thermal inverse algorithm and boundary conditions reconstruction for very fast changes on boundary

POHANKA, M.

Original Title

Limitation of thermal inverse algorithm and boundary conditions reconstruction for very fast changes on boundary

English Title

Limitation of thermal inverse algorithm and boundary conditions reconstruction for very fast changes on boundary

Type

conference paper

Language

en

Original Abstract

Direct measurements of boundary conditions in application such as descaling or hot rolling in steel industry or in experiments that simulates these processes are imposible. Thus temperature histories are recorded inside the investigated body. The distance of the measurement point from the investigated surface strongly influences the shortest impulse that can be reconstructed by an inverse method. The time dependence on distance of the measurement point from the surface is shown in this paper.

English abstract

Direct measurements of boundary conditions in application such as descaling or hot rolling in steel industry or in experiments that simulates these processes are imposible. Thus temperature histories are recorded inside the investigated body. The distance of the measurement point from the investigated surface strongly influences the shortest impulse that can be reconstructed by an inverse method. The time dependence on distance of the measurement point from the surface is shown in this paper.

Keywords

inverse method, temperature, boundary condition, fast, limitation, heat conduction, sequential

RIV year

2007

Released

25.05.2007

Location

Praha

ISBN

978-80-87012-06-2

Book

IM2007

Pages from

229

Pages to

230

Pages count

9

Documents

BibTex


@inproceedings{BUT23171,
  author="Michal {Pohanka}",
  title="Limitation of thermal inverse algorithm and boundary conditions reconstruction for very fast changes on boundary",
  annote="Direct measurements of boundary conditions in application such as descaling or hot rolling in steel industry or in experiments that simulates these processes are imposible. Thus temperature histories are recorded inside the investigated body. The distance of the measurement point from the investigated surface strongly influences the shortest impulse that can be reconstructed by an inverse method. The time dependence on distance of the measurement point from the surface is shown in this paper.",
  booktitle="IM2007",
  chapter="23171",
  howpublished="electronic, physical medium",
  year="2007",
  month="may",
  pages="229--230",
  type="conference paper"
}