Analytical and Approximate Methods in Transport Phenomena Book

Problems 111; One Variable, 1st Order, 1st Kind Boundary Condition
Introduction Heating of a Solid Flow between Two Drums Heating of a Fluid in a Stirring Tank Heated Batch Reactor Reactor with a Time-Controlled Rate Pressure in a Resting Fluid Pressure in Fluid under Rotational Movement Plug-Flow Reactor Heat Conduction in an Indefinite Wall Plate-and-Cone Viscometer Thermocouple Exercises References
Problems 112; One Variable, 1st Order, 2nd Kind Boundary Condition
Introduction Heating of a Solid Heat Conduction in a Spherical Shell Batch Reactor Plug-Flow Reactor Exercises Reference Problems 113; One Variable, 1st Order, 3rd Kind Boundary Condition Introduction Heating of a Solid with Controlled Heat Transfer Rate Temperature-Controlled Batch Reactor Batch Reactor Exercises Problems 121; One Variable, 2nd Order, 1st Kind Boundary Condition Introduction Mass Transfer through a Cylindrical Rod Mass Transfer in a Rod with Variable Diffusivity Conduction through a Pipe Wall Electrically Heated Pipe Wall Heat Transfer in a Spherical Shell Absorption without Reaction Diffusion through a Spherical Shell with Zero-Order Reaction Absorption with Homogeneous Reaction Reacting Particle Heat Transfer through a Reacting Plate Exercises References Problems 122; One Variable, 2nd Order, 2nd Kind Boundary Condition Introduction Flow on an Inclined Plate Flow in an Inclined Tube Rectangular Fin Circular Fin Film Condensation Heat Transfer through a Reacting Plate Exercises References Problems 123; One Variable, 2nd Order, 3rd Kind Boundary Condition Introduction Heat Transfer between a Plate and Fluids Heat Transfer in a Spherical Shell Reacting Particle Heat Transfer between a Reacting Plate and a Fluid Exercises References
Problems 211; Two Variables, 1st Order, 1st Kind Boundary Condition
Introduction Pressure in Fluid Under Rotational Movement Heating a Flowing Liquid Plug-Flow Reactor Exercises Problems 212; Two Variables, 1st Order, 2nd Kind Boundary Condition Introduction Heating of Flowing Liquid Plug-Flow Reactor Exercises Problems 213; Two Variables, 1st Order, 3rd Kind Boundary Condition Introduction Heating of Flowing Liquid Dynamic Plug-Flow Reactor Exercises Problems 221; Two Variables, 2nd Order, 1st Kind Boundary Condition Introduction Heating an Insulated Rod or a Semi-Infinite Body Sudden Motion of a Plate Heating a Flowing Liquid Plug-Flow Reactor Temperature Profile in a Rectangular Plate Heating a Liquid Film Absorbing Flowing Film Exercises Reference Problems 222; Two variables, 2nd Order, 2nd Kind Boundary Condition Introduction Heating an Insulated Rod or Semi-Infinite Body Drying of a Spherical Particle Heating a Cylinder Insulated Rod with Prescribed Initial Temperature Profile Plate-and-Cone Viscometer Heating a Rectangular Plate Exercises References
Problems 223; Two Variables, 2nd Order, 3rd Kind Boundary Condition
Introduction Convective Heating of an Insulated Rod or Semi-Infinite Body Drying of a Spherical Particle Convective Heating of a Cylinder Convective Heating of Insulated Rod with Prescribed Temperature at One End Convective Heating of a Plate Convective Heating of a Plate with Prescribed Temperature Function at One Face Exercises References Problems 311; Three Variables, 1st Order, 1st Kind Boundary Condition Introduction Heating a Flowing Liquid Two-Dimensional Reacting Flow Exercises Problems 312; Three Variables, 1st Order, 2nd Kind Boundary Condition Introduction Heating a Flowing Liquid Two-Dimensional Reacting Flow Exercises Problems 313; Three Variables, 1st Order, 3rd Kind Boundary Condition Introduction Heating a Flowing Liquid Two-Dimensional Reacting Flow Exercises Problems 321; Three Variables, 2nd Order, 1st Kind Boundary Condition Introduction Temperatures in a Rectangular Plate Exercises Appendix A: Fundamental Equations of Transport Phenomena Appendix B: Fundamental Aspects of Ordinary Differential Equations Appendix C: Method of Power Series and Special Functions Appendix D: Laplace Transform Appendix E: Method of Weighted Residuals Appendix F: Method of Similarity Appendix G: Fourier Series and Method of Separation of Variables Appendix H: Fourier Transforms Appendix I: Generalized Representation by Series Exercises References Index