"Advances in Two-Phase Flow and Heat Transfer: Fundamentals and Applications. Volume I" ed. by S. Kakaç, and M. Ishii
NATO advanced science institutes series. Series E, Applied sciences. Issue 63
MNijhоff Publishers / Sрringеr | 1983 | ISBN: 9400968450 9400968477 9789400968455 9789400968479 | 465 pages | PDF | 13 MB
These two volumes incorporate a systematic approach to two-phase flow analysis. Two-phase flow and heat transfer problems associated with two-phase phenomena have been a challenge; the specific aspects of the subject were treated.
This publication is based on the invited lectures presented at the NATO Advanced Research Workshop on the Advances in Two-Phase Flow and Heat Transfer; Spitzingsee, Germany, August 31-September 3, 1982.
More than 50 leading scientists and practicing engineers who work actively on two-phase flow and heat transfer research and applications in different sectors (academia, government, industry)
Content of Volume 1:
Two-Phase Flow Models and their Limitations
A Unified System Mean Void Fraction Model for Predicting Transient Phenomena Associated with Complete or Incomplete Evaporating and Condensing Flows
A Two-Phase Fluid Model Based on the Linearized Constitutive Equations
Modeling of Critical Flow
Analyses of Shock Phenomena in a Bubbly Flow by Two-Velocity Model and Homogeneous Model
Interfacial Transfer in Annular Dispersed Flow
Mechanism of Turbulent Transport at Interface
New Results on the Structure of Stratified Gas-Liquid Flow
Transport Characteristics of Wavy Thin Films on Inclined Surfaces
Forced Convection Film Boiling
CHF and Post-CHF Heat Transfer : An Assessment of Prediction Methods and Recommendations for Reactor Safety Codes
Some Phenomenological Questions in Post-Critical-Flux Heat Transfer
Flow Characteristics of a Large Bubble in a Horizontal Channel
Boiling Heat Transfer in Binary Liquid Mixtures
A Statistical Microscopical Method for the Calculation of the Heat Transfer at Subcooled Flow-Boiling with Low Void Fraction and Low Pressure
Developments in Two-Phase Mass Flow Rate Instrumentation
Turbulence in the Liquid Phase of a Bubbly Air-Water Flow
Application of Geometric Methods to the Study of Two-Phase Flow and Choking in Vertical Pipes
1st with TOC BookMarkLinks
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