Convective Boiling and CondensationClarendon Press, 19 mei 1994 - 640 pagina's * Third edition of a well-known and well established text both in industry and for teaching * Fully up-to-date and includes extra problems This book is an aid to heat exchanger design written primarily for design and development engineers in the chemical process, power generation, and refrigeration industries. It provides a comprehensive reference on two-phase flows, boiling, and condensation. The text covers all the latest advances like flows over tube bundles and two-phase heat transfer regarding refrigerants and petrochemicals. Another feature of this third edition is many new problems at chapter ends to enhance its use as a teaching text for graduate and post-graduate courses on two-phase flow and heat transfer. - ;This book is written for practising engineers as a comprehensive reference on two-phase flows, boiling, and condensation. It deals with methods for estimating two-phase flow pressure drops and heat transfer rates. It is a well-known reference book in its third edition and is also used as a text for advanced university courses. Both authors write from practical experience as both are professional engineers. - |
Inhoudsopgave
INTRODUCTION | 1 |
THE BASIC MODELS | 34 |
EMPIRICAL TREATMENTS OF TWOPHASE FLOW | 84 |
Ax internal tube surface area | 95 |
A0 external tube surface area | 104 |
INTRODUCTION TO POOL AND CONVECTIVE | 131 |
f Refers to not applicable or not appropriateequation in dimensional form | 157 |
SUBCOOLED BOILING HEAT TRANSFER | 183 |
10 | 293 |
CRITICAL HEAT FLUX IN FORCED CONVECTIVE | 325 |
circular conduits with uniform heat flux Important second order effects | 374 |
heating The critical heat flux in noncircular geometries Critical heat flux | 415 |
CONDENSATION | 430 |
CONDITIONS INFLUENCING THE PERFORMANCE | 488 |
boiling Methods of improving the heat transfer coefficient in condensation | 497 |
Conditions influencing the critical heat flux in forced convective boiling | 504 |
VOID FRACTION AND PRESSURE DROP | 220 |
SATURATED BOILING HEAT TRANSFER | 249 |
Wm2 | 268 |
mm | 287 |
The design of boiling systems where heat flux is a dependent variable | 517 |
MULTICOMPONENT BOILING AND CONDENSATION | 535 |
APPENDIX | 585 |
| 591 | |
Overige edities - Alles bekijken
Veelvoorkomende woorden en zinsdelen
annular flow applied assumed Btu/h ft2 bubble bundle calculated cavity channel Chapter component condensation considerable considered constant convective boiling correlation corresponding critical heat flux curve defined developed diameter difference effect entrainment equation equilibrium et al evaluated evaporation experimental expression factor flow pattern flow-rate fluid forced convection function given heat transfer coefficient heating surface homogeneous horizontal increased influence inlet interface length liquid liquid film mass transfer mass velocity mean measured mechanism method mixtures nucleate boiling obtained occurs parameter phase pipe pool boiling predicted presented pressure drop pressure gradient properties radius range ratio reduced region relationship reported shown shows single-phase steam subcooled boiling surface tension Table temperature transition tube two-phase flow units vapour various vertical void fraction wall