Multi-phase flows are part of our natural environment such as tornadoes, typhoons, air and water pollution and volcanic activities as well as part of industrial technology such as power plants, combustion engines, propulsion systems, or chemical and biological industry. The industrial use of multi-phase systems requires analytical and numerical strategies for predicting their behavior. In its third extended edition this book contains theory, methods and practical experience for describing complex transient multi-phase processes in arbitrary geometrical configurations. This book provides a systematic presentation of the theory and practice of numerical multi-phase fluid dynamics. In the present second volume the mechanical and thermal interactions in multiphase dynamics are provided. This third edition includes various updates, extensions, improvements and corrections.1/3 3121 g IpIII aiac = acay aacayapab (21.145) 1F Ia = 2 321 1, 31 23 2 9 Ffc D V I¼ Ia IpI = I (21.146) ... (21.147) 430407aquot;Fcvcaquot;eqorctkuqpaquot;aquot; The sphere film boiling model presented here is implemented in the computer code IVA5. ... m/s, and steam velocity from 3 to 9 m/s, and (b) for downward flow having void fraction from 0.7 to 0.95, water velocity from 1.9 to 6.5 m/s, ... The error band is found to be presents the comparison between the predicted and calculated heat transfer 556 21 Filmanbsp;...
|Title||:||Multiphase Flow Dynamics 2|
|Author||:||Nikolay Ivanov Kolev|
|Publisher||:||Springer Science & Business Media - 2007-05-21|