Chemical and Material Engineering Department
	CHE 312 Transport II
	Instructor: Thuan Ke Nguyen Office Hours

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Syllabus

Grading

Assignments Format

Course Description

Course Outline

Printable Syllabus

A Heat Transfer Textbook, 3rd edition by John H. Lienhard IV and John H. Lienhard V Download text (Free)
Text: A Heat Transfer Textbook	Ref: Fundamentals of Momentum, Heat, and Mass Transfer by Welty, Wicks, and Wilson	Ref: Principle of Heat Transfer by Kaviany	Ref:   Fundamentals of Heat and Mass Transfer by Incropera and DeWitt

Grading:

No late homework. No make-up quizzes or tests

Homework (best 8 of 9 assignments)	15%
(Best 4 of 5 quizzes )	45%, closed books and closed notes
Comprehensive Final	40%, closed books and closed notes

	A : 93-100%	A- : 90-93%
B+ : 87-90%	B : 83-87%	B- : 80-83%
C+ : 77-80%	C : 73-77%	C- : 70-73%
D+ : 67-70%	D : 60-67%	F : 0-60%

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Assignments Format:

Standard Format for Chemical Engineering Problems
An engineer's work should be neat, well organized, and easy to follow. You are expected to follow this standard format for completing chemical engineering problems. Points may be deducted for work that does not adhere to this format.
1. Use 8.5x11 paper for engineering problems.
2. The problem statement is needed before the solution ; a drawing is usually required.
3. No credit will be given for final answers that do not show work involved.
4. Draw a box around your answers. Be sure to include units.
5. The top of each page should contain the following information from left to right:
Course & Section # | Assignment # | Your last name, 1st name | Page #/Total pages
6. Staple all pages of an assignment together in the upper left corner.(Back to Top)

Course Description:

This course will present the principles of heat transfer and its application to the unit operations of chemical engineering and other areas of engineering and science.(Back to Top)

Course Outline:

WEEK	TOPICS	READING
1	Conduction. Convection. Radiation The Conservation of Energy Requirement	Chap. 1
2	The Heat Diffusion Equation Boundary and initial Conditions.	Chap. 2
3	One-Dimensional, Steady-State Conduction	Chap. 3.1-3.3
4	Conduction with Thermal Energy Generation Heat Transfer from Extended Surfaces	Chap. 3.4-3.7
5	Radiation Heat Transfer. Surface Emission Surface Absorption, Reflection, and Transmission	Chap. 12.1-12.4 Chap. 12.5-12.8
6	Unsteady Heat Conduction. The Lumped Capacitance Method The Plane Wall with Convection	Chap. 5.1-5.3 Chap. 5.4-5.5
7	Radial System with Convection Multidimensional Effects	Chap. 5.6-5.10
8	The Convection Boundary Layer Boundary Layer Analogies	Chap. 6
9	Forced Convection External Flow. Internal Flow	Chap. 7 Chap. 8
10	Free Convection Boiling and Condensation	Chap. 9 Chap. 10