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Internal cooling in turbomachinery - hardcover

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VKI LS 2010-05, Internal cooling in turbomachinery, hardcover, 1 volume, ISBN 978-2-87516-006-5

Internal cooling in turbomachinery

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INTERNAL COOLING IN TURBOMACHINERY
Edited by F. Coletti & T. Arts
VKI LS 2010-05, hardcover, 1 volume, ISBN 978-2-87516-006-5

The aim of these Lecture Series proceedings is to look at the state of the art achievements in internal cooling systems, both from an experimental as from a computational point of view. Although most of the lecturers come from the turbomachinery community, this Lecture Series notes are also of interest for those interested in various forced convection heat transfer and cooling problems.

The first lectures notes set the industrial background and challenges of the problem. They are followed by a detailed description of the various experimental approaches available today to quantify the performance of forced convection problems. One lecture is specifically addressed transient approaches, often preferred for heat transfer measurements. Among the various cooling technique, impingement is well recognized; it is addressed in two presentations. The effects of flow rotation on heat transfer are discussed. Finally a discussion of conjugate heat transfer is presented.

From the computational point of view, the Lecture Series aims at covering most of the available approaches, ranging from Reynolds Averaged Navier Stokes techniques, Large Eddy and Direct Numerical Simulation approaches and algebraic models for turbulent scalar fluxes with application to heat transfer, internal flows and rotating flows.

TABLE OF CONTENTS

IRELAND, P. & DAILEY, G. – Rolls-Royce PLC, United Kingdom
Aerothermal performance of internal cooling systems in turbomachines

VON WOLFERSDORF, J. & WEIGAND, B. – Universität Stuttgart, Germany
Turbine blade internal cooling - selected experimental approaches

SPRING, S. & WEIGAND, B. – Universität Stuttgart, Germany
Jet impingement heat transfer

COLETTI, F. & ARTS, T. – von Karman Institute for Fluid Dynamics, Belgium
Experimental study of conjugate heat transfer in a rib-roughened trailing edge cooling channel with crossing-jets

LOHÁSZ, M.M. & RAMBAUD, P. – Budapest University of Technology and Economics, Hungary & von Karman Institute for Fluid Dynamics, Belgium
Conjugate heat transfer: CFD

POSER, R. & VON WOLFERSDORF, J. – Universität Stuttgart, Germany
Transient liquid crystal thermography in complex internal cooling systems

ACHARYA, S. – Louisiana State University, USA
Internal cooling of turbine blades: geometry and rotation effects
Numerical simulation of internal cooling in turbine airfoils: unsteady models

LAROCHE, E. – ONERA/DMAE, France
Reynolds averaged modelling of internal cooling flows

YOUNIS, B.A. – University of California, Davis, USA
Modelling the turbulent scalar fluxes
I. Methodologies
II. Applications

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Manufacturer von Karman Institute for Fluid Dynamics

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