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The Resource Microchannel Flow Dynamics and Heat Transfer of near-Critical Fluid

Microchannel Flow Dynamics and Heat Transfer of near-Critical Fluid

Label
Microchannel Flow Dynamics and Heat Transfer of near-Critical Fluid
Title
Microchannel Flow Dynamics and Heat Transfer of near-Critical Fluid
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Subject
Language
eng
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Cataloging source
MiAaPQ
Literary form
non fiction
Nature of contents
dictionaries
Series statement
Springer Theses Ser
Microchannel Flow Dynamics and Heat Transfer of near-Critical Fluid
Label
Microchannel Flow Dynamics and Heat Transfer of near-Critical Fluid
Link
http://libproxy.rpi.edu/login?url=https://ebookcentral.proquest.com/lib/rpi/detail.action?docID=4707900
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Carrier category
online resource
Carrier category code
cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
txt
Content type MARC source
rdacontent
Contents
  • Supervisor's Foreword 1 -- Supervisor's Foreword 2 -- Preface -- Acknowledgments -- Contents -- Symbols, Greek Symbols, Super and Sub Scripts -- 1 Challenges in Near-Critical Microchannel Flows -- 1.1 Near-Critical Flow in Microchannel -- 1.1.1 Near-Critical Microchannel Flow and Applications -- 1.1.2 Characteristics of Near-Critical Microchannel Flows -- 1.1.3 Flow Dynamic Problems of Near-Critical Microchannel Flows -- 1.1.4 Challenges of Near-Critical Microchannel Flows -- 1.2 Heat Transfer of Near-/Super-Critical Microchannel Flows -- 1.2.1 Basics of Super-/Near-Critical Fluids -- 1.2.2 From Supercritical Fluid to Near-Critical Fluid -- 1.2.2.1 Critical Model and Its Challenges -- 1.2.2.2 Order Parameter, Critical Scaling and Universal Exponents -- 1.2.2.3 New Findings and Theoretical Developments in Critical Heat Transfer -- 1.2.3 Near-Critical Thermal Equilibrium and Microchannel Flows -- 1.2.4 Recent Developments of Microchannel Critical Fluid Heat Transfer -- 1.3 Near-Critical Piston Effect and Thermal-Mechanical Effect -- 1.3.1 Piston Effect and Its Thermal-Mechanical Nature -- 1.3.2 Category of Near-Critical Thermal-Mechanical Behaviors -- 1.3.3 Theoretical and Applications of Near-Critical Fluid Effects -- 1.4 Stability Problem and New Challenges -- 1.4.1 Stability Phenomena in Channel Flows -- 1.4.2 Anomalies in Near-Critical Microchannel Flows -- 1.4.3 Recent Developments of Near-Critical Effects -- 1.4.4 Possibility of High Precision Visualization in Near-Critical Flows -- 1.5 What Are the Challenges in Near-Critical Flow? -- 1.5.1 Key Items in Near-Critical Microscale Flow -- 1.5.2 Theoretical Aspects of Heat Transfers with Near-Critical Flow -- 1.5.3 Targets of This Book -- 1.5.4 Detailed Topics -- 1.6 Contents and Organization of This Book -- References -- 2 Design and Realization of Near-Critical Visualization Experiment
  • 2.1 Basic Design for Phase-Shifting Interferometry -- 2.1.1 Fundamentals of Phase-Shifting Interferometry -- 2.1.2 Phase-Shifting Interferometry in Non-intrusive Measurement -- 2.1.3 Phase-Shifting Interferometry for Near-Critical Fluids -- 2.2 Design of Experimental System -- 2.2.1 Overall System Set-up -- 2.2.2 Flow System Design and Integration -- 2.2.3 Construction of Flow Components -- 2.2.4 Visualization Part: Microchannel Fabrication -- 2.3 Optical Design of Phase-Shifting Interferometer -- 2.3.1 Optical Path -- 2.3.2 Basic Phase-Shifting Interferometer Set-Ups -- 2.4 Measurement Procedures -- 2.4.1 Data Accumulation -- 2.4.2 Uncertainty Analysis -- 2.4.3 Experimental Procedures -- 2.4.3.1 Preparations -- 2.4.3.2 Procedures -- References -- 3 Discussion on Near-Critical Heat Transfer Flow Experiment -- 3.1 Experimental Targets -- 3.2 Conditions -- 3.2.1 Fluid Selection -- 3.2.2 Operation Parameters -- 3.2.3 Experimental Runs -- 3.3 Basic Interferograms of Near-Critical Microchannel Flows -- 3.3.1 Static Interferograms -- 3.3.2 From Sub-critical, Near-Critical to Supercritical States -- 3.3.3 Comparison of the Heating Process -- 3.3.4 Near-Critical Results -- 3.3.4.1 Effect of Re Number -- 3.3.4.2 Effects of Heat Flux -- 3.3.4.3 Transient Results and Discussion -- 3.4 Discussion on Heat Transfer Characteristics -- 3.4.1 Further Comparison with Near-Critical Disturbances -- 3.4.2 Visualization Methods and Comparisons -- 3.4.3 Short Summary -- References -- 4 Numerical Formulation of Near-Critical CO2 Flow in Microchannels -- 4.1 Near-Critical Numerical Challenges -- 4.2 Model and Method -- 4.2.1 Physical Model and Critical Challenges -- 4.2.1.1 Physical Model -- 4.2.1.2 Discussion on Variable Thermal-Physical Properties -- 4.2.2 Governing Equations -- 4.2.3 Numerical Method -- 4.2.4 Boundary and Initial Conditions
  • 4.3 Basic Results of Near-Critical CO2 Microchannel Flows -- 4.3.1 Pressure Drop and Friction Analysis -- 4.3.2 Unstable Flow and New Findings -- 4.3.3 Thermal and Density Relaxation of Near-Critical Microchannel Flow -- 4.3.4 Characteristics of Near-Critical Vortex Flows -- 4.4 Dynamic Features of Near-Critical Microchannel Flows -- 4.4.1 Features of Critical Disturbance and Vortex Formation -- 4.4.2 Local Characteristics of Near-Critical Vortex -- 4.4.3 Characteristic Parameters of Near-Critical Mixing Flow -- 4.4.4 Near-Critical Dissipation -- 4.4.5 Short Summary of Critical Vortex Evolution -- References -- 5 Heat Transfer Characteristics of Near-Critical Microchannel Flows -- 5.1 Basic Features of Unstable Flows -- 5.1.1 Behaviors in Small Scale -- 5.1.2 Behaviors of Relatively Larger Channels -- 5.1.3 Pressure Effects -- 5.2 Characterization of Unstable Flow and Factors -- 5.2.1 Size Effect -- 5.2.2 Acceleration and Adverse Pressure Field -- 5.2.3 Nonlinear Effect of Critical Parameters -- 5.2.4 Transient Behaviors and New Structures -- 5.2.5 Some Comments on the Experimental Verifications -- 5.3 Heat Transfer Analysis -- 5.3.1 Boundary Heat Transfer Parameter Analysis -- 5.3.2 Parameter Design -- 5.4 New Features of Near-Critical Microchannel Flow -- 5.4.1 Local Thermal Plume and Heat Transfer Enhancement -- 5.4.2 Critical Paradox: Heating up and Cooling Down? -- 5.4.3 Further Comments on Critical Heat Transfer -- References -- 6 Theoretical Analysis of Near-Critical Stability Behaviors -- 6.1 New Kelvin-Helmholtz Stability Region: Near-Critical Findings -- 6.1.1 Local "Hot Spot" and Stratification of Critical Fluid -- 6.1.1.1 Origin and Evolution of Local "Hot Spot" -- 6.1.1.2 Local "Hot Spot" Parameter Analysis -- 6.1.2 New Source of Unstable Disturbance -- 6.1.2.1 Basic Explanation on Microchannel K-H Instability
  • 6.1.2.2 K-H Stability Evolution and Its New Perturbation Source -- 6.1.3 Time Scale and Near-Critical Thermal-Mechanical Effects -- 6.1.4 Piston Effect, Thermal-Mechanical Effect and K-H Instability -- 6.2 Near-Critical Stability Evolution Details in Microchannel -- 6.2.1 Critical Boundary Stratification and Kelvin-Helmholtz Stability -- 6.2.2 Coupled Effects Between Thermal-Mechanical Effect and Gravity -- 6.2.3 Further Discussion on Control Factors of Stability Problem -- 6.3 Thermal-Mechanical Process and Near-Critical Thin-Hot Boundary -- 6.3.1 Near-Critical Thin-Hot Boundary Theory -- 6.3.2 Thin-Hot Boundary Stability Evolution -- 6.4 Near-Critical Rayleigh-Taylor Instability -- References -- 7 Summary and Outlook -- 7.1 Main Points of This Book -- 7.2 Highlights -- 7.3 Outlook for Future -- Appendix A: Near-Critical Thin-Hot Boundary Equations -- About the Author
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Form of item
online
Isbn
9789811027840
Media category
computer
Media MARC source
rdamedia
Media type code
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