Advances in Heat Transfer is designed to fill the information gap between regularly scheduled journals and university level textbooks by providing in-depth review articles over a broader scope than is allowable in either journals or texts.
Contributors
Preface
PART I : HEAT AND MASS TRANSFER IN MICROWAVE PROCESSING Chapter 1. : Introduction Chapter 2. : Microwave Oven Components Chapter 3. : Microwave Material Interactions Chapter 4. : Electromagnetic Fields in a Microwave Enclosure Chapter 5. : Heat Transport during Microwave Processing Chapter 6. : Mass Transport in Porous Media under Microwave Heating Chapter 7. : Closing Remarks
PART II : ENHANCEMENT OF HEAT TRANSFER AND MASS TRANSPORT Chapter 8. : Introduciton Chapter 9. : Theoretical Background Chapter 10. : EHD Enhancement of Boiling Heat Transfer Chapter 11. : EHD Enhancement of Condensation Heat Transfer Chapter 12. : EHD Pumping Chapter 13. : Enhancement of Heat Transfer with Corona Wind Chapter 14. : Conclusions
PART III : MICROSCALE ASPECTS OF THERMAL RADIATION TRANSPORT AND LASER APPLICATIONS Chapter 13. : Introduction Chapter 14. : Fundamentals Chapter 15. : length Scales and Related Radiation Regimes Chapter 16. : Time Scales and Related Regimes Chapter 17. : Electromagnetic Wave Interference and Related Models Chapter 18. : Models for Thin Metallic Films Chapter 19. : Short-Pulse Radiation Transport through Scattering Absorbing Media Chapter 20. : Laser Metal Interaction
PART IV : GAS IR RADIATIVE PROPERTIES : FROM SPECTROSCOPIC DATA TO APPROXIMATE MODELS Chapter 21. : Introduction Chapter 22. : Characterization of an Isolated Line Chapter 23. : Gas Molecular Spectra Chapter 24. : Statistical Narrowband (SNB) Models Chapter 25. : The Correlated-k (CK) and correlated-k-Fictitious-Gas (CKFG) Chapter 26. : Models Based on Global Absorption Distribution Functions Chapter 27. : Accuracy of the Models Applied to Radiative Transfer in Planar Media Chapter 28. : Concluding Remarks
PART V : COOLING-WATER FOULING IN HEAT EXCHANGERS Chapter 29: Introduction Chapter 30. : Fouling Mechanisms during Heat Transfer to Water Chapter 31. : Sequential Events of Fouling Chapter 32. : General Approach to the Modeling of Heat-Exchanger Fouling Chapter 33. : Crystallization Fouling Chapter 34. : Particulate Fouling Chapter 35. : Biological Fouling Chapter 36. : Industrial Cooling-Water Fouling Chapter 37. : Mitigation of Cooling-Water Fouling Chapter 38. : Conclusions