Two-phase nano- and micro-thermal control device research is now proving relevant to a growing range of modern applications, including those in cryogenics, thermal engineering, MEMS, and aerospace engineering. Until now, researchers have lacked a definitive resource that provides a complete review of micro- and nano-scale evaporative heat and mass transfer in capillaries-porous structures.
Transport Phenomena in Capillary-Porous Structures and Heat Pipes covers the latest experiemental research efforts in two-phase thermal control technology research and development. The book covers vaporization heat transfer and hydrodynamic processes occurring in capillary channels and porous structures—paying particular attention to the physical mechanisms of these phenomena. Extensive experimental research activities on unique film and photo materials of boiling inside slits, capillaries, and capillary-porous structures are reviewed.
By providing a complete record of research in the field, this volume gives researchers, engineers, and practitioners working on vaporization heat transfer and hydrodynamic processes the findings needed to avoid unnecessary experimental efforts, and will help further the development of this dynamic area of research.
Table of Contents
Hydrodynamics and Heat Transfer of Single-Phase Flow in Capillaries and Slits. Hydrodynamics and Heat Transfer of Single Phase Flow in Porous Structures. Thermohydrodynamics Phenomenon at the Vaporization in Capillary-Porous Structures. The Thermodynamic Phenomenon of Vaporization in Narrow Gaps and Capillaries. The Heat and Mass Transfer of Vaporization in the Capillary-Porous Structures. The Physical Principles and Semiempirical Models of the Heat Transfer Boiling Crises.