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" Boiling : "
edited by Yasuo Koizumi, Masahiro Shoji, Masanora Monde, Yasuyuki Takata, Niro Nagai.
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BL
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| Record Number
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872262
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| Title & Author
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Boiling : : research and advances /\ edited by Yasuo Koizumi, Masahiro Shoji, Masanora Monde, Yasuyuki Takata, Niro Nagai.
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| Publication Statement
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Amsterdam, Netherlands :: Elsevier,, [2017]
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| Page. NO
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1 online resource
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| ISBN
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0081011172
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: 9780081011171
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0081010109
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9780081010105
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| Bibliographies/Indexes
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Includes bibliographical references and index.
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| Contents
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Front Cover; Boiling; Copyright Page; Contents; List of Contributors; Biographies; Preface; The Phase Change Research Committee; Contributors; 1 Outline of Boiling Phenomena and Heat Transfer Characteristics; 1.1 Pool Boiling; 1.2 Flow Boiling; References; 1.3 Other Aspects; References; 2 Nucleate Boiling; 2.1 MEMS Sensor Technology and the Mechanism of Isolated Bubble Nucleate Boiling; 2.1.1 Introduction; 2.1.2 MEMS Sensor Technology in Boiling Research; 2.1.2.1 Sensor Type and Performance; 2.1.2.2 Signal Conditioning; 2.1.2.3 Sensor Design for Pool Nucleate Boiling.
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2.1.2.4 Sensor Calibration2.1.2.5 Experimental System and Conditions; 2.1.2.6 Calculation of Local Heat Flux; 2.1.2.7 Calculation of Wall Heat Transfer and Latent Heat in Bubble; 2.1.3 Heat Transfer Mechanisms Revealed by MEMS Thermal Measurement; 2.1.3.1 Bubble Growth Characteristics; 2.1.3.2 Phenomenological Model of Isolated Bubble Pool Boiling; 2.1.3.3 Fundamental Heat Transfer Phenomena Observed from Local Wall Temperature and Heat Flux; 2.1.3.4 Microlayer Thickness; 2.1.3.5 Characteristics of Wall Heat Transfer and Bubble Growth; 2.1.3.6 Effect of Wall Superheat on Boiling Heat Transfer.
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2.1.3.7 Continuous Bubble Boiling2.1.4 Conclusion; References; 2.2 Measurement of the Microlayer During Nucleate Boiling and Its Heat Transfer Mechanism; 2.2.1 Introduction; 2.2.2 Measurement of Microlayer Structure by Laser Extinction Method; 2.2.2.1 Experimental Apparatus and Method; 2.2.2.2 Initial Distribution of Microlayer Thickness; 2.2.3 Measurement of Microlayer Structure by Laser Interferometric Method; 2.2.4 Basic Characteristics and Correlations Concerning the Microlayer in Nucleate Pool Boiling; 2.2.5 Numerical Simulation on the Heat Transfer Plate During Boiling.
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2.2.5.1 Heat Transfer Characteristics of the Microlayer in an Evaporation System2.2.5.2 Contribution of Microlayer Evaporation; 2.2.6 Numerical Simulation on the Two-Phase Vapor-Liquid Flow During Boiling; 2.2.6.1 Variation in Microlayer Radius and Bubble Volume; 2.2.6.2 Temperature Distribution of Liquid in the Vicinity of the Bubble Interface; 2.2.6.3 Heat Transfer Characteristics of Microlayer Evaporation; 2.2.6.4 Contribution of Microlayer Evaporation; 2.2.7 Conclusion; Nomenclature; Greek Symbols; Subscripts; References.
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2.3 Configuration of the Microlayer and Characteristics of Heat Transfer in a Narrow-Gap Mini-/Microchannel Boiling System2.3.1 Introduction; 2.3.2 Mechanisms and Characteristics of Boiling Heat Transfer in the Narrow-Gap Mini-/Microchannels; 2.3.2.1 General Features of Boiling Phenomena in Narrow-Gap Mini-/Microchannels; 2.3.2.1.1 Effect of surface wetting on boiling heat transfer characteristics in mini-/micro-gaps; 2.3.2.1.2 Mechanisms and characteristics of boiling heat transfer in the narrow-gap mini-/microchannel on a wettable surface; 2.3.2.1.3 Experimental apparatus and method.
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| Abstract
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This book presents the latest developments and improvements in the technologies, instrumentation, and equipment surrounding boiling.
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| Subject
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Ebullition-- Research.
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| Subject
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Ebullition-- Research.
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| Subject
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SCIENCE-- Mechanics-- Thermodynamics.
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| Dewey Classification
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536.44
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| LC Classification
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QC304
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| Added Entry
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Koizumi, Yasuo
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Monde, Masanori
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Nagai, Niro
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Shōji, Masahiro
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Takata, Yasuyuki
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Nihon Kikai Gakkai.
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