Measuring Techniques in Gas-Liquid Two-Phase Flows -

Measuring Techniques in Gas-Liquid Two-Phase Flows

Symposium, Nancy, France July 5–8, 1983

J.M. Delhaye, G. Cognet (Herausgeber)

Buch | Softcover
XXIII, 746 Seiten
2012 | 1. Softcover reprint of the original 1st ed. 1984
Springer Berlin (Verlag)
978-3-642-82114-1 (ISBN)
160,49 inkl. MwSt
A IUTAM symposium on "Measuring Techniques in Gas-Liquid Two Phase Flows" was held on July 5-8, 1983 in Nancy, France. This topic in cluded instrumentation for steam-water and liquid-vapor flows but strictly excluded measuring techniques for gas or liquid flows with solid particles. The top priority in the paper selection was given to presentations of new methods which had been substantiated by theoretical modeling, calibration tests and comparison tests with other techniques. Examples of experimental resul ts obtained with the proposed instrumentation had to be displayed. However the interpretation of these results in terms of two-phase flow or heat transfer modeling did not fall wi thin the scope of the meeting. Thirty four papers were presented during the Symposium and 79 participants coming from Canada, European countries, Japan and the United States attended the sessions. They represented not only Universities but also state agencies and private companies. After the meeting each paper was peer-reviewed by at least three referees. The Editors of this Procee dings Volume are pleased to extend their deep gratitude to the following reviewers: J.L. Achard, R.J. Adrian, B. Azzopardi, J.A. Boure, G. Costigan, M. Courtaud, A.E. Dukler, F. Durst, J.R. Fincke, G. Gouesbet, P. Griffith, T.J. Hanratty, A. Hawighorst, T.R. Heidrick, G. Hetsroni, Y.Y. Hsu, M.

Optical Imaging.- Holographic Measurements of Bubble Size and Velocity in a Three-Phase System.- Drop Size Measurement in a Vertical Gas-Liquid Flow.- A Comparative Study Between Holographic and Light-Scattering Techniques of Microbubble Detection.- High-Speed Multiple Spark Cameras for Gas-Liquid Tow-Phase Flow Studies.- Flow Visualization in Two-Phase Flow.- The Measurement of Liquid Phase Velocity Profiles in Vertical Two-Phase Flow.- Optical Scattering.- Development and Application of a Two-Colour Particle Sizing Instrument.- Turbulence Measurements in Two-Phase Bubbly Flows Using Laser-Doppler Anemometry.- Simultaneous Measurement of Size and Two-Velocity Components of Large Droplets in a Two-Phase Flow by Laser-Doppler Anemometry.- Application of an Optical Scatterer to the Study of Two-Phase Flow in Vertical Pipes.- Raman Scattering in Two-Phase Flows with Application to Temperature Measurements.- Optical and Acoustical Attenuation.- Optimization of an Experimental Setup for Void Fraction Determination by the X-Ray Attenuation Technique.- LOBI Spectrum-Stabilized Gamma Densitometers.- Measurement of Transient Flow Pattern by High Speed Scanning X-Ray Void Fraction Meter.- A Single-Beam Multi-Detector Gamma Densitometer for Void Fraction and Phase Distribution Measurements in Transient Two-Phase Flows.- Measurement of Noncondensible Distribution of Two-Phase Flow Experiments Using Ultraviolet Attenuation Techniques.- Void Fraction Measurement by an Ultrasonic Transmission Technique in Bubbly Gas-Liquid Two-Phase Flow.- Neutron Physics.- Neutronic Fluctuation Analysis as a Characterizing Vehicle for Two-Phase Flow.- Design Aspects of a Fast Neutron Scattering Technique for Phase Distribution Measurement in Two-Phase Flow.- Tagging Technique.- Theory of the Determination of Slip Ratio in High Pressure Steam-Water Flows Using an 16N Tagging Technique.- Two-Phase Flow Measurement Using a Pulsed-Photon-Activation (PPA) Technique.- A Nuclear Magnetic Resonance Method for the Investigation of Two-Phase Flow.- Local Probes, Technology and Signal Analysis.- Velocity, Measurement with Electrical Couble-Sensing Devices in Two-Phase Flow.- Ultrasonic Doppler Measurements of Bubble Velocities in Bubble Columns.- Real-Time Measurement of Two-Phase Flow Turbulence Using a Dual-Sensor Anemometry.- An Overall-Void Sensor and an Optical Measuring Device.- Two-Phase Flow Identification by Calibration with Stochastic Parameters.- Flowmeters.- Orifice Plates: Two-Phase Applications.- Residual Error Problems in True Mass Flowmeters.- Two-Phase Mass Flow Rate Measurements with Pitot Tubes and Density Measurements.- Vertical Liquid-Liquid and Liquid-Gas Two-Phase Flow Measurements with a Vortex Flowmeter.- Test of Two-Phase Mass Flow Rate Instrumentation in Transient Steam-Water Flow.- Electrochemical Method.- Electrochemical Method for Measuring Turbulent Characteristics of Gas-Liquid Flows.- Wall Shear Measurements by Electrochemical Probes in Two-Phase Flow. Bubble and Slug Regimes.- Analytical Index.

Erscheint lt. Verlag 5.1.2012
Reihe/Serie IUTAM Symposia
Zusatzinfo XXIII, 746 p.
Verlagsort Berlin
Sprache englisch
Maße 155 x 235 mm
Gewicht 1152 g
Themenwelt Naturwissenschaften Physik / Astronomie Mechanik
Naturwissenschaften Physik / Astronomie Thermodynamik
Schlagworte Experiment • Flows • Flüssigkeit • Gas • Heat • paper • particles • Phase • Strömungsmessung • Turbulence • Two-phase flow • Zweiphasenströmung
ISBN-10 3-642-82114-6 / 3642821146
ISBN-13 978-3-642-82114-1 / 9783642821141
Zustand Neuware
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