Microscale Heat Transfer - Fundamentals and Applications: Proceedings of the NATO Advanced Study Institute on Microscale Heat Transfer - Fundamentals and Applications in Biological and Microelectromechanical Systems, Cesme-Izmir, Turkey, 18-30 / Edition 1by S. Kakac, L.L. Vasiliev, Y. Bayazitoglu, Y. Yener
Pub. Date: 06/23/2005
Publisher: Springer Netherlands
This volume provides a comprehensive state-of-the art assessment of the fundamentals of the Microscale heat transfer and transport phenomena and heat transfer and applications in Microsystems. The modern trend toward miniaturization of devices requires a better understanding of heat mass transfer phenomena in small dimensions. Devices having dimensions of order of
This volume provides a comprehensive state-of-the art assessment of the fundamentals of the Microscale heat transfer and transport phenomena and heat transfer and applications in Microsystems. The modern trend toward miniaturization of devices requires a better understanding of heat mass transfer phenomena in small dimensions. Devices having dimensions of order of microns are being developed for use of cooling of integrated circuits, and in biochemicals-biomedical applications and cryogenics. Microelectromechanical systems (MEMS) have an important impact in medicine, bioengineering, information technologies and other industries.
Table of Contents
Single-Phase Forced Convection in Microchannels – State-of-the-Art Review;Y. Yener et al.
Measurements of Single-Phase Pressure Drop and Heat Transfer Coefficient in Micro and Minichannels; A. Bontemps.
Steady State and Periodic Heat Transfer in Micro Conduits; M.D. Mikhailov et al.
Flow Regimes in Microchannel Single-Phase Gaseous Fluid Flow; Y. Bayazitoglu, S. Kakaç.
Microscale Heat Transfer at Low Temperatures; R. Radebaugh.
Convective Heat Transfer for Single-Phase Gases in Microchannel Slip Flow: Analytical Solutions; Y. Bayazitogluet al.
Microscale Heat Transfer Utilizing Microscale and Nanoscale Phenomena; A. Yabe.
Microfluidics in Lab-on-a-Chip: Models, Simulations and Experiments; Dongquing Li.
Transient Flow and Thermal Analysis in Microfluidics; R.M. Cotta et al.
From Nano to Micro to Macro Scales in Boiling; V.K. Dhir et al.
Flow Boiling in Minichannels; A. Bontemps et al.
Heat Removal Using Narrow Channels, Sprays and Microjets; M. Fabbri et al.
Boiling Heat Transfer in Minichannels;V. Kuznetsov et al.
Condensation Flow Mechanisms, Pressure Drop and Heat Transfer in Microchannels; S. Garimella.
Heat Transfer Characteristics of Silicon Film Irradiated by Pico to Femtosecond Lasers; J. Sik Lee, S. Park.
Microscale Evaporation Heat Transfer; V.V. Kuznetsov, S.A. Safonov.
Ultra-Thin Film Evaporation(UTF)-Application to Emerging Technologies in Cooling of Microelecronics; M. Ohadi, J. Qi.
Binary–Fluid Heat and Mass Transfer in Microchannel Geometries for Miniaturized Thermally Activated Absorption Heat Pumps; S. Garimella.
Heterogeneous Crystallization of Amorphous Silicon Accelerated by External Force Field: Molecular Dynamics Study; J. Sik Lee, S. Park.
Hierarchical Modeling of Thermal Transport from Nano-to-Macroscales; C.H. Amon et al.
Evaporative Heat Transfer on Horizontal Porous Tube; L. Vasiliev et al.
Micro and Miniature Heat Pipes; L.L. Vasiliev.
Role of Microscale Heat Transfer in Understanding Flow Boiling Heat Transfer and Its Enhancement; K. Sefiane, V.V. Wadekar.
Heat Transfer Issues in Cryogenic Catheters; R. Radebaugh.
Sorption Heat Pipe - A New Device for Thermal Control and Active Cooling; L.L. Vasiliev, L. Vasiliev, Jr.
Thermal Management of Harsh-Environmental Electronics; M. Ohadi, J. Qi.
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