EXPERIMENTAL INVESTIGATIONS OF FLOW, TURBULENCE AND SUBSPACE FORMATION ON COLD MODELS OF GAS-STIRRED MIXING REACTORS | Health & Environmental Research Online (HERO)

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Citation
Tags

HERO ID

4966295

Reference Type

Journal Article

Title

EXPERIMENTAL INVESTIGATIONS OF FLOW, TURBULENCE AND SUBSPACE FORMATION ON COLD MODELS OF GAS-STIRRED MIXING REACTORS

Author(s)

Jank, G; Nonte, T; Steinmetz, E; Wilhelmi, H; Schlosser, G

Year

1992

Volume

Issue

Page Numbers

387-391

Web of Science Id

WOS:A1992JP36800002

Abstract

Experimental and theoretical investigations were undertaken with cold water models of bottom-blown metallurgical ladles in order to develop a mathematical description of the mixing processes in such reactors. This analytical model bases on the subdivision of the reactor into interacting subspaces, whereby each of the subspaces is regarded as an ideal mixer. The flow field and the distribution of the turbulence intensity measured by LDA and light section in water models and the concentration curves in mercury models measured by E.M.F. cells show that a subdivision into five subspaces is adequate. Size, position, interacting coefficients and the total mixing times are determined by experiments, too.