Ebook: Silicon Microchannel Heat Sinks: Theories and Phenomena
- Tags: Electronics and Microelectronics Instrumentation, Condensed Matter Physics, Engineering general
- Series: Microtechnology and MEMS
- Year: 2004
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
Two-phase microchannel cooling is one of the most promising thermal-management technologies for future high-power IC chips. Understanding the boiling process and the two-phase flow behavior in microchannels is the key to successful implementation of a microchannel heat sink. This book focuses on the phase-change phenomena and the heat transfer in sub-150 mm diameter silicon microchannels, with emphasis on thermal measurement and modeling, and the impact of small dimensions on two-phase flow regimes. Scientists and engineers tackling thermal and MEMS problems will find the discussion in this book inspiring for their future design of microscale heat transfer experiments. This book will also contribute to the study of two-phase microchannel flows by providing extensive experimental data which are otherwise barely available.
Two-phase microchannel cooling is one of the most promising thermal-management technologies for future high-power IC chips. Understanding the boiling process and the two-phase flow behavior in microchannels is the key to successful implementation of a microchannel heat sink. This book focuses on the phase-change phenomena and the heat transfer in sub-150 mm diameter silicon microchannels, with emphasis on thermal measurement and modeling, and the impact of small dimensions on two-phase flow regimes. Scientists and engineers tackling thermal and MEMS problems will find the discussion in this book inspiring for their future design of microscale heat transfer experiments. This book will also contribute to the study of two-phase microchannel flows by providing extensive experimental data which are otherwise barely available.
Two-phase microchannel cooling is one of the most promising thermal-management technologies for future high-power IC chips. Understanding the boiling process and the two-phase flow behavior in microchannels is the key to successful implementation of a microchannel heat sink. This book focuses on the phase-change phenomena and the heat transfer in sub-150 mm diameter silicon microchannels, with emphasis on thermal measurement and modeling, and the impact of small dimensions on two-phase flow regimes. Scientists and engineers tackling thermal and MEMS problems will find the discussion in this book inspiring for their future design of microscale heat transfer experiments. This book will also contribute to the study of two-phase microchannel flows by providing extensive experimental data which are otherwise barely available.
Content:
Front Matter....Pages I-IX
Introduction....Pages 1-11
Two-phase Microchannel Heat Sinks: Problems and Challenges....Pages 13-32
A Thermal Experimental System with Freestanding Microchannels....Pages 33-54
Measurements and Modeling of Two-phase Flow in Microchannels....Pages 55-72
Boiling Regimes and Transient Signals Associated with the Phase Change....Pages 73-94
Enhanced Nucleate Boiling in Microchannels....Pages 95-118
Conclusions....Pages 119-125
Back Matter....Pages 127-141
Two-phase microchannel cooling is one of the most promising thermal-management technologies for future high-power IC chips. Understanding the boiling process and the two-phase flow behavior in microchannels is the key to successful implementation of a microchannel heat sink. This book focuses on the phase-change phenomena and the heat transfer in sub-150 mm diameter silicon microchannels, with emphasis on thermal measurement and modeling, and the impact of small dimensions on two-phase flow regimes. Scientists and engineers tackling thermal and MEMS problems will find the discussion in this book inspiring for their future design of microscale heat transfer experiments. This book will also contribute to the study of two-phase microchannel flows by providing extensive experimental data which are otherwise barely available.
Content:
Front Matter....Pages I-IX
Introduction....Pages 1-11
Two-phase Microchannel Heat Sinks: Problems and Challenges....Pages 13-32
A Thermal Experimental System with Freestanding Microchannels....Pages 33-54
Measurements and Modeling of Two-phase Flow in Microchannels....Pages 55-72
Boiling Regimes and Transient Signals Associated with the Phase Change....Pages 73-94
Enhanced Nucleate Boiling in Microchannels....Pages 95-118
Conclusions....Pages 119-125
Back Matter....Pages 127-141
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