¥»½Òµ{2.51¬O¤@­Ó12­Ó³æ¦ì®É¶¡ªº½ÒÃD¡A¬O¾÷±ñ¤uµ{¨t¤j¾Ç³¡¤§°ªµ¥¼ö½è¶Ç»¼ªº½Òµ{¡C¥ý­×½Òµ{¥]¬A¤j¾Ç³¡µ{«×¤§¼ö¤O¾Ç¤Î¬yÅé¤O¾Ç¡A§Y¼ö¬y¤uµ{I(Thermal-Fluids Engineering I)¤Î¼ö¬y¤uµ{II(Thermal Fluids Engineering II)©ÎªÌ»P¨ä¬Û·íªº¬ì¥Ø¡C¤º®e¥]§t¡G¤@ºû¤Î¦hºû¼ÈºA¼ö¶Ç¾É¡A¦hºûíºA¼ö¶Ç¾É¡A¼ö¶Ç¾É¼Æ­È¼ÒÀÀ¡F¼h¬y¤Î¯¿¬y±j¨î¹ï¬y¡F¤º³¡¤Î¥~³¡¬y°Ê¦ÛµM¹ï¬y¡F¾®µ²¤ÎªmÄ˼ö¶Ç¡F§CÅܲv½è¶Ç¡A»]µo¡F¼ö¿ç®g¡A¶ÂÅé¡A¦ÇÅé¿ç®gºô¸ô¡AÀWÃФΤӶ§¿ç®g¡C°ÝÃD¤Î½d¨Ò±j½Õ½ÆÂø¨t²Î¦p»s³y¡A¹q¤l¡A®ø¶O²£«~¤Î¯à·½¨t²Îªº¼Ò«¬¤Æ¡C

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• Lienhard, J.HµÛ¡A¡m¼ö¶Ç»¼±Ð¬ì®Ñ¡n(A Heat Transfer Textbook,)²Ä¤Tª©¡APhlogiston Press, 2001
• Mills, A.FµÛ¡A¡m¼ö»P½è¶q¶Ç»¼¤Jªù¡n(Basic Heat and Mass Transfer)¡A²Ä¤Gª©¡APrentice-Hall, 1999
• Baehr, H.D»PK. Stephan¦XµÛ¡A¡m¼ö»P½è¶q¶Ç»¼¡n(Heat and Mass Transfer)¡ASpringer-Verlag, 1998
• ¡m°¾·L¤À¤èµ{¦¡¨Ï¥ÎªÌ¤u¨ã«ü«n¡n(Partial Differential Equation Toolbox User¡¦s Guide)¡AMathworks, Inc., 1995

Course 2.51 is a 12-unit subject, serving as the Mechanical Engineering department’s advanced undergraduate course in heat and mass transfer. The prerequisites for this course are undergraduate courses in thermodynamics and fluid mechanics, specifically Thermal-Fluids Engineering I and Thermal Fluids Engineering II or their equivalents. Topics to be covered include: unsteady heat conduction in one or more dimensions, steady conduction in multidimensional configurations, numerical simulation of conduction; forced convection in laminar and turbulent flows; natural convection in internal and external configurations; heat transfer during condensation and boiling; mass transfer at low rates, evaporation; thermal radiation, black bodies, grey radiation networks, spectral and solar radiation. Problems and examples will emphasize modelling of complex systems drawn from manufacturing, electronics, consumer products, and energy systems.

Lecturer: Professor J.H. Lienhard
Lectures: Two sessions / week. 1.5 hours / session.
Recitations: One session / week. 1 hour / session
Textbook: A Heat Transfer Textbook, 3/e, by Lienhard and Lienhard (2002).

The grade will be based on two midterm quizzes (40%), homework and class participation (20%), and a final exam (40%). The exams will be open book unless otherwise announced. They will cover material from the lectures and the homeworks.

Homework assignments paralleling the lectures will be distributed. These problems will apply the material covered in lectures and are essential to learning that material. They will involve theory, modelling, and design exercises. It is important that work the problems yourself, even if you have access to old solutions. Some of these problems will also be worked in the recitations.

• Lienhard, J.H. A Heat Transfer Textbook, 3/e. (Phlogiston Press, 2001).
• Mills, A.F. Basic Heat and Mass Transfer, 2/e. (Prentice-Hall, 1999).
• Baehr, H.D. and K. Stephan. Heat and Mass Transfer. (Springer-Verlag, 1998).
• Partial Differential Equation Toolbox User’s Guide. (Mathworks, Inc., 1995).