Contributors / C. Saltiel ; A. Datta |
Heat and Mass Transfer in Microwave Processing / J. Seyed-Yagoobi ; J.E. Bryan |
Enhancement of Heat Transfer and Mass Transport in Single-Phase and Two-Phase Flows With Electrohydrodynamics / S. Kumar ; K. Mitra |
Microscale Aspect of Thermal Radiation Transport and Laser Applications / J. Taine ; N. Soufiani |
Gas IR Radiative Properties: From Spectroscopic Data to Approximate Models / H. Muller-Steinhagen,Cooling Water Fouling In Heat Exchangers |
Heat Transfer from Heat Generating Pools and Particulate Beds / J.H.S. Lee ; M. Berman ; V.K. Dhir |
Hydrogen Combustion and its Application to Nuclear Reactor Safety Issues / T.G. Theofanous ; D.F. Fletcher |
Heat Transfer and Fluid Dynamic Aspects of Explosive Melt-Water Interactions / M.M. Pilch |
M.D. Allen / D.C. Williams |
Heat Transfer during Direct Containment Heating |
Subject Index |
A View of the History of Heat Transfer in Bioengineering / J.C. Chato |
Mathematical Models of Bioheat Transfer / C.K. Charney |
Modelling of Bioheat Transfer Processes at High and Low Temperatures / K.R. Diller |
Temperature Measurements / J.W. Valvano |
Chapter References |
Index |
Heat Transfer and Fluid Dynamics in the Process of Spray Deposition / C.P. Grigoropoulos ; D. Poulikakos ; J.M. Waldvogel ; T.D. Bennett ; J.-R. Ho ; X. Wu ; X. Zhang |
Heat and Mass Transfer in Pulsed-Laser-InducedPhase Transformations / Y. Jaluria |
Heat and Mass Transfer in the Extrusion of Non-Newtonian Materials / P.J. Prescott ; F.P. Incropera |
Convection Heat and Mass Transfer in Alloy Solidification / R.L. Mahajan |
Transport Phenomena in Chemical Vapor-Deposition Systems |
Preface |
Microscales of Turbulent Heat and Mass Transfer / C.Y. Wang ; P. Cheng ; V.S. Arpaci |
Multiphase Flow and Heat Transfer in Porous Media / E.F.C. Somerscales and A.E. Bergles |
Enhancement of Heat Transfer and Fouling Mitigation / K.D. Kihm |
Laser Speckle Photography Techniques Applied for Heat and Mass Transfer Problems / V. Prasad ; H. Zhang ; A. Anselmo |
Transport Phenomena in Czochralski Crystal Growth Processes |
Acoustic Wave Induced Flows and Heat Transfer in Gases and Supercritical Fluids / Bakhtier Farouk ; Yiqiang Lin ; Zhiheng Lei |
Introduction / I: |
Mechanically Driven Acoustic Waves / A: |
Thermacoustic Induced Acoustic Waves in Gases / B: |
Thermoacoustic Waves in Supercritical Fluids / C: |
Mathematical Model and Numerical Methods / II: |
OverView |
Mathmatical Model |
Numerical Methods |
Mechanically Driven Acoustic Waves in Gas-Filled Enclosure / III: |
Overview |
Flow in an Acoustically Driven Rectangular Enclosure |
Flows in an Acoustically Driven Cylindrical Enclosure |
Interactions of Mechanically Driven Acoustic Waves with Heat Transfer in a Rectangular Chamber / D: |
Numerical Study of Thermally Induced Acoustic Waves in Gases / IV: |
Thermally Induced Acoustic Waves in Atmospheric and High Pressure Gases |
Interactions of Thermally Induced Acoustic Waves with Buoyancy Induced Flows: Side-Wall Heated Enclosures |
Interaction of Thermally Induced Acoustic Waves with Buoyancy Induced Flow Bottom Wall Heated Enclosures |
Experimental Study of Thermally Induced Acoustic Waves in Gases / V: |
Experimental Apparatus and Procedure |
Experimental Results and Discussion |
Thermally Induced Acoustic Waves in Supercritical Fluids / VI: |
Equation of State and Thermodynamic Properties of Supercritical Carbon Dioxide |
Numerical Results for Supercritical Carbon Dioxide |
Experimental Study of Thermally Induced Acoustic Waves in Supercritical Fluids / VII: |
Experimental Apparatus and Procedures |
Summary and Conclusions |
References |
Characterization Methods of High-Intensity Focused Ultrasound-Induced Thermal Field / Rupak K. Banerjee ; Subhashish Dasqupta |
HIFU Free-Field Characterization in Liquid Medium |
HIFU Thermal Field Characterization in Tissue Medium |
HIFU Thermal Field Characterization |
Invasive Method |
Nonperturbing Method |
Noninvasive Method |
Future Direction |
Improvement in Calculations: Accounting for Boiling, Cavitation, and Nonlinearity |
Extension of Inverse Heat Transfer Method: Calculation of Intensity and Acoustic Absorptivity |
Plasma Discharge in Water / Yong Yang ; Alexander Fridman ; Young I. Cho |
Needs for Plasma Water Treatment |
Previous Studies on the Plasma Water Treatment |
Process of Conventional Electrical Breakdown in Water |
Underwater Plasma Sources |
Direct Discharges in Liquid |
Bubble Discharges in Liquid |
Dynamics of Non-Equilibrium Plasma in Liquid Water |
Experiment Setup |
Results and Discussions |
Analysis of Microsecond Streamer Propagation |
Electrostatic Model |
Thermal Mechanism |
Stability Analysis |
Application of Spark Discharge for Scale Removal on Filter Membranes |
Results and Discussion |
Plasma-Assisted CaC03 Precipitation |
Results |
Mechanism Study |
Application for Mineral Fouling Mitigation in Heat Exchangers |
X-Ray Diffraction Tests |
Application for Water Sterilization / VIII: |
Previous Studies on Plasma-Assisted Water Sterilization |
Test Methods |
Results and Effect of Plasma-Induced UV Radiation on Sterilization |
Final Remarks / IX: |
Author Index |
Microgrooved Heat Pipe / B. Suman |
Brief Overview of Chapter |
Brief History of Heat Pipes / b: |
Aim and Scope |
Heat Pipe |
Applications of a Micro Heat Pipe / E: |
Electronic Cooling |
Human Disease Remedy |
Spacecraft Thermal Control |
Solar Energy Conversion |
Aircraft Temperature Control |
Fuel Cell Temperature Regulation / F: |
Steady-State Operation of Micro Heat Pipes |
Literature Review of Various Steady-State Models |
Steady-State Experimental Studies |
Electrohydrodynamically Augmented Micro Heat Pipe |
Steady-State Sensitivity Analysis |
Transient Operation of Micro Heat Pipes |
Transient Models |
Transient Experimental Study |
Transient Sensitivity Analysis |
Operating and Design Parameters |
Fill Charge |
Liquid Height |
Coolant Liquid Temperature |
Effect of Surface Tension Gradient on a Micro Heat Pipe |
Friction Factor and Surface Roughness |
Fabrication of Micro Heat Pipes |
Performance Factor / G: |
Design of Microgrooved Heat Pipes |
Limitations to Heat Transport |
Conclusions |
Nomenclature |
A Review of Heat Transfer in Nanofluids / Sarit K. Das ; Stephen U.S. Choi |
From Slurries to Nanofluid |
Nanofluids: Novel Features |
Synthesis of Nanoparticles |
Particle Characterization |
Preparation of Nanofluids |
Physical Dispersion Technique |
Chemical Dispersion Method |
Single-Step Methods |
Thermal Conductivity Enhancement in Nanofluids |
Ceramic Nanofluids |
Metallic Nanofluids |
Carbon and Polymer Nanotube Nanofluids |
Temperature Effect |
Theories on Thermal Conductivity of Nanofluids |
Convection in Nanofluids / X: |
Forced Convection in Nanofluids |
Experimental Works on Convection in Nanofluids |
Mechanisms in Convection of Suspensions |
Analytical and Numerical Studies on Convection in NanoFluids |
Natural Convection in Nanofluids |
Boiling in Nanofluids / XI: |
Pool Boiling Heat Transfer at Higher Solid Particle Concentrations |
Pool Boiling Heat Transfer at Lower Solid Particle Concentrations |
Studies on CHF in Pool Boiling / XII: |
Applications of Nanofluids / XIII: |
Summary and Future Direction of Research / XIV: |
Pool Boiling Critical Heat Flux in Dielectric Fluids and Nano Fluids / Arik Mehmet |
Thermo-Fluid Dynamics of Boiling in Microchannels / Sujoy Kumar Saha |
Fluid Flow and Heat Transfer from circular and non-circular cylinders submerged in non-Newtonian Liquids / Raj P Chhabra |
Direct Contact Condensation of Steam Jet in a Pool / Chul-Hwa Song |
Prediction of the Influence of Energetic Chemical Reactions on Forced Convective Heat Transfer / Bo Yu ; Stuart W. Churchill |
Advances and Outlooks of Heat Transfer Enhancement by Longitudinal Vortex Generators / Ya-Ling He ; Yuwen Zhang |
List of Contributors |
Modeling of Multiscale Heat Transfer Systems Using Volume Averaging Theory / Krsto Sbutega ; David Geb ; Ivan Catton1: |
Theoretical Fundamentals / 2: |
Applications / 3: |
Concluding Remarks / 4: |
Acknowledgments |
Nucleate Pool Boiling under Reduced Gravity Conditions-Role of Numerical Simulations / Vijay K. Dhir |
Pool Nucleate Boiling |
Results of Bubble Dynamics |
Nucleate Boiling Heat Transfer |
Friction and Heat Transfer in Liquid and Gas Flows in Micro- and Nanochannels / M. Michael Yovanovich ; Waqar A. Khan5: |
Characteristic Lengths and Geometry |
Regular Polygonal Microchannels |
Elliptical Microchannels |
Rectangular Microchannels |
Rectangular Microchannels with Circular and Segment Ends / 6: |
Circular Segment Microchannels / 7: |
Circular Sector Microchannels / 8: |
Rhombic Microchannels / 9: |
Right Triangular Microchannels / 10: |
Isosceles Triangular Microchannels / 11: |
Scalene Triangular Microchannels / 12: |
Isosceles Trapezoidal Microchannels / 13: |
Concentric Circular Annular Microchannels / 14: |
Central Regular Polygonal Cores in Circular Microducts / 15: |
Central Circular Core in Polygonal Microducts / 16: |
Rarefied Gas Flows in Circular and Noncircular Microchannels / 17: |
Closure / 18: |
A Personal View of 50 Years of Thermal Radiation Heat Transfer Research / John R. Howell |
Radiation Research |
Future Research Areas |
Final Comments |
Therapeutic Recruitment of Thermoregulation in Humans by Selective Thermal Stimulation along the Spine / Kenneth R. Diller |
Glabrous Skin Heat Transfer |
Glabrous Skin as a Physiological Compact Heat Fxchanger |
Prior Studies of STS in Nonhuman Mammalian and Avian Species |
STS Studies in Humans |
STS Devices to Regulate Human Body Core Temperature Effectively |
Computer Simulation of the Influence of STS on Thermoregulation |
Acknowledgments of Support and Contributions |
Conflict of Interest Statement |
Evolution of Thermal Dosimetry for Application of Hyperthermia to Treat Cancer / Mark W. Dewhirst ; John Abraham ; Benjamin Viglianti |
Importance of Thermal Dosimetry for Hyperthermia and Thermal Ablation |
Randomized Phase III Trial Results |
Principles of Radiation: Thermal Radiation |
Radiation Heat Transfer |
Principles of Monte Carlo Methods: Formulation |
Methods of Solution |
Special Treatises |
Applications of the Monte Carlo Method: Two-Dimensional Systems |
Some Industrial Applications |
References Applications on Disk |
List of Variables in Computer Programs |
Contributors / C. Saltiel ; A. Datta |
Heat and Mass Transfer in Microwave Processing / J. Seyed-Yagoobi ; J.E. Bryan |
Enhancement of Heat Transfer and Mass Transport in Single-Phase and Two-Phase Flows With Electrohydrodynamics / S. Kumar ; K. Mitra |