| Interfacial Engineering Series |
Authors: D. Fennell Evans, Professor Emeritus, Chemical Engineering and Materials Science, University of Minnesota; James M. Wheeler, Former Corporate Director of Coating Technologies, Eastman Kodak Company
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Presentation of fundamental concepts and solved problems of an introductory heat transfer course for engineering students at the sophomore or junior level. Learning is enhanced through the use of goal statements, graphics, animations example problems and interactive exercises.
More information is available by clicking on 'Course contents' to the right, and at the bottom of this page.
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To purchase this course, follow the steps below:
Course contents include: Heat Transfer Self-tutorial , Absorptivity, Annular flow, Blackbody radiation, Biot number, Bromley equation, Bubbly flow, Buoyancy, Collier correlation, Drop wise condensation, Effectiveness-NTU Method, Emissivity, Evaporation, Film condensation, Film temperature, Fin, Fins, Flow boiling, Fouling factor, Fouling resistance, Fourier number, Fourier's law, Fourier's law of conduction, Fourier-Biot equation, Grashof number, Heat exchanger, Heat pipe, Heat transfer coefficient, Heisler chart, Kirchoff's law of radiation, LaPlace equation, Log mean temperature, Log mean temperature drop, Lumped systems, Mist flow, Newton's law of cooling, Nucleate boiling, Nusselt number, Overall heat transfer coefficient, Pool boiling, Possion equation, Prandtl number, Rayleigh number, Rohsenow correlation, Shape factors, Slug flow, Stefan-Boltzmann equation, Temperature profiles, Thermal conductivity, Thermal contact resistance, Thermal networks, Thermal resistance, Transition boiling, Vapor flow, Zuber equation
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