NCHU Course Outline
Course Name (中) 輸送現象(一)(2404)
(Eng.) Transport Phenomenon(I)
Offering Dept Department of Chemical Engineering
Course Type Required Credits 3 Teacher CHANG,HOU-CHIEN
Department Department of Chemical Engineering/Undergraduate Language English Semester 2025-SPRING
Course Description Fundamental knowledges of transport phenomena including fluid statics, mass conservation, momentum conservation and energy conservation using controlled volume approach, derivations of differential equations, viscid and inviscid flow are thoroughly introduced in this course.
Prerequisites
self-directed learning in the course N
Relevance of Course Objectives and Core Learning Outcomes(%) Teaching and Assessment Methods for Course Objectives
Course Objectives Competency Indicators Ratio(%) Teaching Methods Assessment Methods
To introduce fundamental and advanced knowledges on fluid mechanics and fluid dynamics with interpretations in mathematical and physical analysis. Students are expected to have detailed understanding on transport phenomena theories as they finish this course.
1.Solid foundations on fundamental scientific and professional chemical engineering knowledge.
3.Proficiency of analyzing problems and identifying key points with rigorous logic.
5.Philosophy of interdisciplinary study and proactive learning.
60
20
20
topic Discussion/Production
Networking/Distance Education
Exercises
Lecturing
Written Presentation
Attendance
Assignment
Quiz
Course Content and Homework/Schedule/Tests Schedule
Week Course Content
Week 1 Concept of momentum transfer
Week 2 Pressure and force in a static fluid
Week 3 Conservation of mass--control volume approach
Week 4 Conservation of mass--control volume approach
Week 5 Newton's second law of motion-control volume approach
Week 6 Newton's second law of motion-control volume approach
Week 7 Conservation of energy--control volume approach
Week 8 Conservation of energy--control volume approach
Week 9 Midterm exam
Week 10 Shear stress in laminar flow
Week 11 Differential element analysis
Week 12 Differential element analysis
Week 13 Differential equation of fluid flow
Week 14 Differential equation of fluid flow
Week 15 Dimensional analysis
Week 16 External flow-the boundary layer
Week 17 Drag and friction factor
Week 18 Final exam
Evaluation
Assignments and exams
Textbook & other References
Fundamentals of Momentum, Heat and Mass Transport, 6th edit, Welty, Rorrer and Foster. ISBN: 978-118-80887-0
Teaching Aids & Teacher's Website
Textbook and class notes
Office Hours
Instructor:10:00-12:00, Wednesdays.
TA: 14:00-17:00, Thursdays.
Sustainable Development Goals, SDGs
 include experience courses:N
Please respect the intellectual property rights and use the materials legally.Please repsect gender equality.
Update Date, year/month/day:None Printed Date, year/month/day:2025 / 1 / 22
The second-hand book website:http://www.myub.com.tw/