Copyright © 2009 MNF Lab. -  All Rights reserved.

TEXTBOOK

Frank P. Incropera, David P. DeWitt,  Fundamentals of Heat and Mass Transfer, Jon Wiely & Sons, Inc., 2002.

INSTRUCTOR

Dr. A. Moosavi   Office: 511   Phone: 66165681    E-mail: moosavi@sharif.edu

ASSISTANT

Mr. A. Darabi and H. Ghorbani      E-mail:  meh_arian@yahoo.com

Heat Transfer - II

RECOMMENDED REFERENCES

- W. Kays and  M. Crawford, B. Weigan, Convective Heat and Mass Transfer, McGraw-Hill,  3 edition , 1993.

- W. M . Rohsenow, J. P. Hartnett and Y. I. Cho, Handbook of Heat Transfer, McGraw-Hill,  3 edition , 1998.


COURSE SCHEDULE AND VENUE

Monday          9:00-10:30               Sina Building - Alef 3

COURSE OUTLINE

Chapter 6     Introduction to Convection (the velocity,  the thermal and  the concenteration boundary layers,
                     laminar and turbulent flow, boundary layer equations, boundary layer similarity, dimensional
                     parameters, boundary layer analogies)     

Chapter 7       External Flow (the emperical method, flat plate in parallel flow, the cylinder in cross flow, the
                     sphere problem, flow across banks of tubes)

Chapter 8       Internal Flow (hydrodynamic considerations, thermal considerations, the energy balance, laminar
                     flow, turbulent flow, noncircular tubes, the concentric tube annulus)

Chapter 9       Free Convection (physical considerations, the governing equations, similarity considerations,
                     vertical surface, parallel plate channels, enclosures, combined free and forced convection,
                     convection mass transfer)

Chapter 10     Boiling and Condensation (dimensional parameters, boiling modes, pool boiling, forced convection
                     boiling, condensation, condensation on a vertical plate, condensation on radial systems,
                     condensation in horizontal tubes, dropwise condensation)

Chapter 14     Diffusion Mass Transfer (physical origins and rate equations, consevation of species, boundary
                     and initial conditions, mass diffusion with chemical reactions)


COURSE GRADING

Midterm                   40 percent    (Grades)
Homework+Project    15 percent 
Final                         45 percen


COURSE EXAMINATION SCHEDULE

Midterm   
Final             


HOMEWORK ASSIGNMENTS

Homework 1                Homework 2            Homework 3          Homework 4

Homework 5                   Homework 6          Homework 7