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DEGREE REGULATIONS & PROGRAMMES OF STUDY 2019/2020

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DRPS : Course Catalogue : School of Engineering : Chemical

Undergraduate Course: Heat, Mass and Momentum Transfer 3 (CHEE09013)

Course Outline
SchoolSchool of Engineering CollegeCollege of Science and Engineering
Credit level (Normal year taken)SCQF Level 9 (Year 3 Undergraduate) AvailabilityAvailable to all students
SCQF Credits20 ECTS Credits10
SummaryThis course covers the following topics: Heat, Mass and Momentum Transfer. The fundamentals of heat, mass and momentum transfer are presented, including analogies between the transfer mechanisms for convective transfer and treatment of radiative heat tranfer.
Course description 40 L+ weekly surgery hours
L1-4 Introduction, rate laws
L5-10 Transfer processes in stationary systems
L11-16 Momentum transfer (analytical)
L17 Non-Newtonian flows
L18-9 Turbulent flow
L20 -24 Dimensional analysis and empirical momentum transfer
L25- 28 Convective heat transfer
L29-30 Heat transfer equipment
L31-2 Convective heat transfer with phase changes
L33-5 Convective & interphase transfer; analogy theory
L36-7 Combined transfer processes
L38-40 Radiant heat transfer
Additionally, self study material is available on the course VLE which allows students to keep abreast of lecture material; solutions appear periodically.
Entry Requirements (not applicable to Visiting Students)
Pre-requisites Students MUST have passed: Fluid Mechanics 2 (SCEE08003) AND Thermodynamics (Chemical) 2 (CHEE08009)
Co-requisites
Prohibited Combinations Other requirements None
Information for Visiting Students
Pre-requisitesNone
High Demand Course? Yes
Course Delivery Information
Academic year 2019/20, Available to all students (SV1) Quota:  None
Course Start Semester 2
Timetable Timetable
Learning and Teaching activities (Further Info) Total Hours: 200 ( Lecture Hours 40, Feedback/Feedforward Hours 1, Formative Assessment Hours 1, Summative Assessment Hours 1, Other Study Hours 10, Programme Level Learning and Teaching Hours 4, Directed Learning and Independent Learning Hours 143 )
Additional Information (Learning and Teaching) None
Assessment (Further Info) Written Exam 100 %, Coursework 0 %, Practical Exam 0 %
Feedback Not entered
Exam Information
Exam Diet Paper Name Hours & Minutes
Main Exam Diet S2 (April/May)3:00
Resit Exam Diet (August)3:00
Learning Outcomes
On completion of this course, the student will be able to:
  1. - identify and describe transport mechanisms for heat, mass and momentum, developing & solving models, appropriately simplified, which address transport phenomena and conservation laws, of physical transport problems (including with 1-D fluid flow)
  2. - solve problems in turbulent transport using empirical approaches and the Chilton-Colburn analogy
  3. - understand the phenomena of phase change and how this affects transport problems
  4. - perform a preliminary heat exchanger design using Kern's method
  5. - extend simple cases of heat transfer to include radiation and for fluid flow to use 2-parameter non-Newtonian models to obtain velocity profiles.
Reading List
All references below are RECOMMENDED

1. Tosun, I., (2002), Modelling in Transport Phenomena, Elsevier.
2. Welty, J. R., C. E. Wicks, R. E. Wilson & G Rorrer (2001), Fundamentals of Momentum, Heat and Mass Transfer, 4th edition, John Wiley&Sons (or newer edition)
3. McCabe, W. L., J. C. Smith and P. Harriott (2001), Unit Operations of Chemical Engineering, 6th edition, McGraw-Hill. Book Co (or newer edition)
4. Holland, F & Bragg, R (1995) Fluid Flow for Chemical Engineers, Edward Arnold.
5. Lienhard, JH IV, & Lienhard, JH V (2003) A Heat Transfer textbook, 3ed, Phlogiston Press.
6. Shih, T-M (2013) Heat Transfer: Lessons with examples solved by Matlab.
7. Cengel & Ghajar, Heat and Mass Transfer: Fundamentals and Applications (SI units), 5/e.
Additional Information
Graduate Attributes and Skills Not entered
KeywordsNot entered
Contacts
Course organiserDr Gail Duursma
Tel: (0131 6)50 4868
Email: Gail.Duursma@ed.ac.uk
Course secretaryMr Mark Owenson
Tel: (0131 6)50 5533
Email: Mark.Owenson@ed.ac.uk
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