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Identification of heat transfer functions in continuous casting of steel by regularization
-
C. Carthel
and
H.W. Engl
Published/Copyright:
September 7, 2013
Abstract
- For solving direct and inverse heat transfer problems in continuous casting of steel numerically, one needs to determine the heat transfer functions modelling secondary cooling as functions of the water flow rate. We present an approach based on regularization for identifying these heat transfer functions from temperature measurements on the strand surface; this approach works fine for simulated data with added noise and reasonably well for real data.
Published Online: 2013-09-07
Published in Print: 2000-12
© 2013 by Walter de Gruyter GmbH & Co.
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- Finding a Riemannian metric in the case when some of the components of a curvature’s tensor don’t depend on one of the variables
- Direct and inverse problems for kinetic equations
- Analog of the F. and M. Riesz theorem for A-analytic functions
- Location of a gas source in a geophysical problem
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- Identification of heat transfer functions in continuous casting of steel by regularization
Articles in the same Issue
- CONTENTS
- Finding a Riemannian metric in the case when some of the components of a curvature’s tensor don’t depend on one of the variables
- Direct and inverse problems for kinetic equations
- Analog of the F. and M. Riesz theorem for A-analytic functions
- Location of a gas source in a geophysical problem
- Tikhonov regularization for an integral equation of the first kind with logarithmic kernel
- Identification of heat transfer functions in continuous casting of steel by regularization
