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E-raamat: Next Generation Microchannel Heat Exchangers

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In Next Generation Microchannel Heat Exchangers, the authors’ focus on the new generation highly efficient heat exchangers and presentation of novel data and technical expertise not available in the open literature. Next generation micro channels offer record high heat transfer coefficients with pressure drops much less than conventional micro channel heat exchangers. These inherent features promise fast penetration into many mew markets, including high heat flux cooling of electronics, waste heat recovery and energy efficiency enhancement applications, alternative energy systems, as well as applications in mass exchangers and chemical reactor systems. The combination of up to the minute research findings and technical know-how make this book very timely as the search for high performance heat and mass exchangers that can cut costs in materials consumption intensifies.
1 Fundamentals of Microchannels
1(32)
1.1 Introduction and History of Microchannels
1(3)
1.1.1 History
1(1)
1.1.2 Introduction of Microchannels
2(1)
1.1.3 Classification of Microchannels/Minichannels
3(1)
1.1.4 Benefits and Challenges of Microchannels
4(1)
1.2 Fabrication Methods for Microchannels
4(4)
1.2.1 Conventional Technology
5(2)
1.2.2 Modern Technology
7(1)
1.3 Single-Phase Flow in Microchannels
8(6)
1.3.1 Pressure Drop Correlations
10(3)
1.3.2 Heat Transfer Correlations
13(1)
1.4 Phase-Change (multi-phase) Flow in Microchannels
14(7)
1.4.1 Pressure Drop Correlations
14(2)
1.4.2 Heat Transfer Correlations
16(5)
1.5 Comparison of the Selected Correlations
21(12)
1.5.1 Two-Phase Flow Correlations Without Phase Change
21(12)
2 Force-Fed Microchannels for High Flux Cooling Applications
33(34)
2.1 Introduction
34(9)
2.1.1 Working Principles
35(2)
2.1.2 Survey of State of the Art Research in the Field
37(6)
2.2 Heat Transfer Analysis of FFMHX
43(5)
2.2.1 Heat Transfer and Pumping Power in Short Channels
43(3)
2.2.2 Heat Transfer and Pressure Drop for Thermally and Hydrodynamically Developing Flow
46(2)
2.3 Numerical Modeling of Single-Phase Heat Transfer in FFMHX
48(12)
2.3.1 Numerical Simulation of a Sample FFMHX
50(10)
2.4 Two-Phase Heat Transfer in FFMHX
60(7)
2.4.1 Performance Comparison of FFMHX with Other High Heat Flux Cooling Technologies
64(3)
3 Emerging Applications of Microchannels
67(40)
3.1 Microchannel Heat Exchangers
67(28)
3.1.1 Automotive and Aerospace
67(3)
3.1.2 Chemical Reactors
70(5)
3.1.3 Cryogenic Systems
75(4)
3.1.4 Laser Diode Applications
79(2)
3.1.5 Enhanced Micro-Grooved Tubular Evaporators for Waste Heat Recovery Applications
81(14)
3.2 Microchannel Heat Pipes
95(9)
3.2.1 Micro-Pulsating Heat Pipes
96(2)
3.2.2 Microchannel Flat Heat Pipes
98(3)
3.2.3 Counter-Stream-Mode Oscillating Flow Micro Heat Pipe
101(3)
3.3 Microchannel Heat Plates
104(3)
Authors' Biographies 107(4)
References 111
Dr. Michael Ohadi is Professor of Mechanical Engineering and Co-Director of the Center for Environmental Energy Engineering at the University of Maryland, College Park; Dr. Kyosung Choo is a Research Associate in the Smart & Small Thermal Systems Laboratory in the mechanical engineering department at the University of Maryland, College Park; Dr. Serguei Dessiatoun is Research Associate Professor in Mechanical Engineering at the University of Maryland, College Park; Dr. Edvin Cetegen is a Research Scientist at Intel Corp.
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