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Syllabus |
The theoretical program of this course consists of: Introduction and fundamental concepts; Conduction heat transfer (heat diffusion equation in plane geometry, cylindrical, spherical, steady state and transient regime, and the study of fin); Convection heat transfer (fundamental equations, the thermal boundary layer and hydrodynamic boundary layer, internal and external flow, and empirical correlations); thermal radiation (thermal radiation laws, black and gray surfaces, radiation between surfaces, and view factor). The practical component of this course involves the problems resolution in the classroom, the experimental and numerical study of heat transfer conditions in the laboratory.
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Main Bibliography |
1. Main text
Cengel, Y.A. and Ghajar A. J., Heat and Mass Transfer: Fundamentals and Applications, McGraw-Hill, 2011.
2. Supplementary texts
Bergman, T. L., Lavine, A. S., Incropera, F. B. and Dewitt, D. P., Fundamentals of Heat and Mass Transfer, John Wiley & Sons, 2011.
Holman, J. P., Heat Transfer, McGraw-Hill, 2009.
Bejan, A., Heat transfer, John Wiley & Sons, 1993.
Mills, A. F., Heat and mass transfer, Irwin, 1995.
Ozisik, M. N., Heat transfer-A basic approach, McGraw-Hill, 1985.
Available in pdf:
Pedro D. Silva, Heat transfer exercises series, UBI, 2017 (in portuguese).
Pedro D. Silva, Heat transfer documentation: equations, tables and diagrams, UBI, 2016 (in portuguese).
Luís Pires e Pedro D. Silva, Laboratory guide to experimental heat convection studies, UBI, 2004 (in portuguese).
Luís Pires e Pedro D. Silva, Laboratory guide to experimental heat conduction studies, UBI, 2004 (in portuguese).
Pedro D. Silva, Numerical study of heat transfer in extended surfaces (fins), UBI, 2012 (in portuguese).
Pedro D. Silva, Heat transfer notes, UBI, 2016 (in portuguese).
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