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 allowablein either journals or texts.
Preface
PART I : UNSTEADY CONVECTIVE HEAT TRANSFER IN CHANNELS Chapter 1 : Introduction Chapter 2 : Statement of Unsteady Conjugate Problems and Specific Chapter 3 : Unsteady Heat Transfer in Channels Chapter 4 : Unsteady Heat Transfer IN Complex Geometry Channels Chapter 5 : Heat Transfer Processes at Filling and Draining
PART II : HEAT TRANSFER AND RELEVANT CHARACTERISTICS OF MAGNETOGLUIDIZED BEDS Chapter 6 : Introduction Chapter 7 : Experimental Investigations Chapter 8 : Discussion of Experimental Results Chapter 9 : Additional Experimental Investigations Chapter 10 : Correlations and Regime Delineation Scheme Chapter 11 : Applications of Magnetofluidized Beds Chapter 12 : General Conclusions and Recommendations
PART II : VARIATIONAL SOLUTIONS OF TRANSIENT HEAT CONDUCTION THROUGH BODIES OF FINITE LENGTH Chapter 13 : Introduction Chapter 14 : Formalization of Variational Principle with Vanishing Parameter Chapter 15 : Nonlinear Equations and Corresponding Action Integrals Chapter 16 : Direct Methods Based on Variational Principle with Vanishing Parameter Chapter 17 : Approximate Solutions Using Euler-Lagrange Equations Chapter 18 : Approximate Solutions Using Rayleigh Ritz Method Chapter 19 : Approximate Solutions via Canonical Form of Variational Principle Chapter 20 : Concluding Remarks
PART III : HEAT AND MASS TRANSFER FROM IMMERSED BODIES TO NON-NEWTONIAN FLUIDS Chapter 21 : Introduction Chapter 22 : Rheological Considerations Chapter 23 : Convective Heat and Mass Transport form Immersed Surfaces Chapter 24 : Flow over Rod Bundles Chapter 25 : Concluding Remarks
PART IV : LARGE EDDY SIMULATION : A CRITICAL SURVEY OF MODELS AND APPLICATIONS Chapter 29 : Introduction Chapter 30 : Theoretical Framework Chapter 31 : Subgrid Scale Models Chapter 32 : Some Debated Issues in Subgrid Modeling Chapter 33 : Applications Presented in the Literature Chapter 34 : Conclusions and Recommendations