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Liquid fragmentation in high-speed flow - hardcover

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VKI LS 2009-04, Liquid fragmentation in high-speed flow, hardcover, 1 volume, ISBN 978-2-930389-92-3

Liquid fragmentation in high-speed flow

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Liquid fragmentation in high-speed flow
Edited by P. Rambaud, C. Asma
VKI LS 2009-04, hardcover, 1 volume, ISBN 978-2-930389-92-3

Abstract

Liquid injection into compressible crossflow has several interesting applications such as fuel injection in supersonic or hypersonic scramjet engines, thrust vector maneuvering of high speed aerial or space vehicles, and film cooling used in the thermal protection systems of space vehicles that experience atmospheric entry. The field involves many disciplines, and it is a complicated multi-phase flow field especially for compressible crossflow cases, with a unique flow topology including shock-shock and shock-boundary layer interactions. High aerodynamic shear forces, fragmentation, penetration and atomization of the liquid jet are important features that deserve detailed analyses.

The objective of these lecture series proceedings is to provide the state-of-the-art information on liquid fragmentation in compressible crossflow. Lectures notes include a review of the fundamentals of the phenomena as well as recent advances relevant to the modelling, computation and measurement of the flowfield. Examples of several applications are 
presented, by experts of the field from all around the world.

The Lecture Series proceedings are intended not only to provide suitable training and information to engineers and scientists who wish to enter the field, but also to provide a focal point for technical discussions and an opportunity to exchange views and ideas among engineers and scientists who already work in the field.

Table of content

VILLERMAUX, E. - Aix-Marseille Université, IRPHE, France
Fragmentation of liquids

HEISTER, S. - Purdue University School of Aeronautics and Astronautics, USA
Atomization at high injection speeds - Application to pressure atomizers

LAMANNA, G.; STOTZ, I.; WEIGAND, B. - Universität Stuttgart, Germany
Supercritical fluid injection in quiescent flow fields: modelling and mixing enhancement
A review of experimental techniques to study liquid fragmentation

FROLOV, S.M. - N. Semenov Institute of Chemical Physics, Russia
Detonations of liquid sprays and drop suspensions: theory
Detonations of liquid sprays and drop suspensions: experiments

SRULIJES, J. & SEILER, F. - French-German Research Institute of Saint-Louis (ISL), France
Shock tube experiments at ISL on liquid fragmentation
Part 1: The ISL and its Shock Tube Laboratory

SMEETS, G. & PATZ, G. - French-German Research Institute of Saint-Louis (ISL), France
Shock tube experiments at ISL on liquid fragmentation
Part 2: Atomization of a cylindrical liquid beam in high speed flows
Part 3: Atomization of a high viscous liquid droplet at hypersonic flow speed
(Translation, edition and interpretation by J. Srulijes and F. Seiler)

SRULIJES, J. & SEILER, F. - French-German Research Institute of Saint-Louis (ISL), France
Shock tube experiments at ISL on liquid fragmentation
Part 4: Discussion of the experimental outcomes on liquid fragmentation

ASMA, C. O.; PERURENA, J. B.; MASUTTI, D.; CHAZOT, O. - von Karman Institute for Fluid Dynamics, Belgium
Fragmentation of liquid in hypersonic cross flow




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Manufacturer von Karman Institute for Fluid Dynamics

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