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School of Chemical and Environmental Engineering

Now offering two distinct diplomas: Chemical Engineering and Environmental Engineering

Transport Phenomena II

1. COURSE INFORMATION:

School Chemical and Environmental Engineering
Course Level Undergraduate
Direction Chemical Engineering
Course ID CHE 310 Semester 5th
Course Category Required
Course Modules Instruction Hours per Week ECTS

Lectures and Tutorials

3
T=2, E=1, L=0

4
Course Type Scientific area
Prerequisites  
Instruction/Exam Language Greek
The course is offered to Erasmus students  
Course URL  

 

2. LEARNING OUTCOMES

Learning Outcomes

Upon successful completion of the course the student will be able to:

  • Recall basic principles of heat transfer, heat transfer mechanisms (conduction, convection, radiation).
  • Define the similarities between mass transfer and heat transfer, the difference between forced and natural convection.
  • Recognize the importance of boundary conditions, the steady and transient state of heat transfer and the phenomena of condensation and boiling.
  • Apply he principles of heat transfer to heat exchangers.
  • Solve engineering problems in the real world by using transport phenomena equations.
General Competencies/Skills
  • Review, analyze and synthesize data and information, with the use of necessary technologies
  • Interdisciplinary work
  • Design and Project Management

3. COURSE SYLLABUS

  1. Basic Principles of Heat Transfer, Similarities between Heat and Mass
  2. Heat Conduction - Steady one-dimensional heat transfer - Heat transfer accompanied with heat production
  3. Steady multidimensional heat transfer
  4. Transient heat transfer
  5. Convective Heat transfer
  6. Heat convection in flows over bodies
  7. Heat convection in pipes
  8. Free convection
  9. Condensation and evaporation
  10. Heat Exchangers
  11. Radiative Heat transfer
  12. Basic principles of thermal radiation
  13. Radiant heat exchange between surfaces

4. INSTRUCTION and LEARNING METHODS - ASSESSMENT

Lecture Method Direct (face to face)

Use of Information and Communication Technology

  • Power point presentations
  • E-class support
Instruction Organisation Activity Workload per Semester
(hours)
- Lectures 26
- Tutorials 13
- Problem sets (4) [optional] 20
- Autonomous study 41
Course Total 100

Assessment Method

I.  Written final examination (100%) or
II. Written final examination (>60%) and Problem Sets (<40%)

5. RECOMMENDED READING

  • Μεταφορά Θερμότητας και Μάζας, Αραμπατζής Γεώργιος, Ασημακόπουλος Διονύσιος, Λυγερού Βασιλική, : ΕΚΔΟΣΕΙΣ Α. ΤΖΙΟΛΑ & ΥΙΟΙ Α.Ε., Κωδικός Βιβλίου στον Εύδοξο: 86054333
  • Μεταφορά Μάζας και Θερμότητας, 5η Έκδοση Βελτιωμένη, Cengel Yunus., Ghajar A., Παναγιώτης Τσιακάρας (επιμέλεια), ΕΚΔΟΣΕΙΣ Α. ΤΖΙΟΛΑ & ΥΙΟΙ Α.Ε., Κωδικός Βιβλίου στον Εύδοξο: 77106813
  • Εισαγωγή στα Φαινόμενα Μεταφοράς, 2η Έκδοση, Bird R. Byron, Stewart E. Warren, Lightfoot N. Edwin, Klingenberg J. Danilel, Ευστάθιος Κικκινίδης (επιμέλεια), ΕΚΔΟΣΕΙΣ Α. ΤΖΙΟΛΑ & ΥΙΟΙ Α.Ε., Κωδικός Βιβλίου στον Εύδοξο: 59415132
  • ΜΕΤΑΦΟΡΑ ΘΕΡΜΟΤΗΤΑΣ ΚΑΙ ΜΑΖΑΣ,  Bergman, Lavine, Incropera, Dewitt, Κωδικός Βιβλίου στον Εύδοξο: 3299796

6. INSTRUCTORS

Course Instructor: Associate Professor G. Arampatzis (Faculty - PEM)
Lectures: Associate Professor G. Arampatzis (Faculty - PEM)
Tutorial exercises: Associate Professor G. Arampatzis (Faculty - PEM)
Laboratory Exercises: