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Undergraduate Course: Engineering Thermodynamics 2 (SCEE08006)

Course Outline
School	School of Engineering	College	College of Science and Engineering
Credit level (Normal year taken)	SCQF Level 8 (Year 2 Undergraduate)	Availability	Available to all students
SCQF Credits	10	ECTS Credits	5
Summary	This course provides a basic grounding in the principles and methods of Classical Thermodynamics. It concentrates on: understanding the thermodynamic laws in relation to familiar experience; phase change, ideal gas and flow processes; using sources of data like thermodynamic tables and charts; application of the basic principles to the operation of various engine cycles.
Course description	Lecture 1 - Introduction Basic Concepts and Definitions of Thermodynamics Lecture 2 - Pure substances 1 Phase Change Properties, Property Diagrams Lecture 3 - Pure substances 2 Property Diagrams (continued) and Tables, Saturated Liquid -Vapour Mixture, The Ideal Gas Law Lecture 4 - Energy, Energy Transfer, and General Energy Analysis Heat transfer mechanisms Lecture 5 - 1st Law of Thermodynamics: Closed Systems Calculation of Heat and Work, Forms of the 1st Law Lecture 6 - Specific Heats Definitions, Specific Heats of Ideal Gases, Liquids and Solids Lecture 7 - Mass and Energy Analysis of Control Volumes Control volume, Steady-state steady Flow Processes, Mass flow rate Lecture 8 - 1st Law of Thermodynamics: Open Systems 2 Steady Flow Engineering Devices, Introduction to Unsteady Flow Processes Lecture 9 - 2nd Law of Thermodynamics Introduction, Statements of the 2nd Law, The Carnot Cycle Lecture 10 - Entropy: A Measure of Disorder Entropy and 2nd Law, The Increase of Entropy Principle, Entropy Change Lecture 11 - The property of entropy Entropy Change (continued), Third Law of Thermodynamics, T-s diagram. Lecture 12 - Entropy changes for various processes Pure substances, Incompressible substances, Isentropic processes Lecture 13 - Entropy & Work Isentropic, Steady Flow through Turbines, Pumps, and Compressors Lecture 14 - Gas Power Cycles: Carnot and Otto Cycles Analysis of Power Cycles, Carnot and Otto Cycle Lecture 15 - Gas Power Cycles: Diesel Cycle Diesel and Dual Cycles Lecture 16 - Gas Power Cycles: Brayton Cycle Brayton Cycle - the ideal cycle for gas-turbine engines Lecture 17 - Vapor and Combined Power Cycles Carnot and Rankine vapor Cycles Lecture 18 - Refrigeration Cycles Reversed Carnot Cycle, Vapour-Compression Cycle Lecture 19 - Systematic Approach to Problem Solving Examples, Systematic Approach to Problem solving Lectures 20 - Review Session Note: Chem Eng students are to attend the first 10 lectures of this course followed by 10 lectures on Chemical Equilibrium and Phase Change covered by the U03916: Thermodynamics (Chemical) 2 course.

Entry Requirements (not applicable to Visiting Students)
Pre-requisites	Students MUST have passed: Engineering 1 (SCEE08001) OR Mechanical Engineering 1 (MECE08007) OR Civil Engineering 1 (CIVE08001) OR Chemical Engineering 1 (CHEE08001) OR ( Physics 1A: Foundations (PHYS08016) AND Physics 1B: The Stuff of the Universe (PHYS08017)) OR ( Chemistry 1A (CHEM08016) AND Chemistry 1B (CHEM08017))	Co-requisites
Prohibited Combinations		Other requirements	None

Information for Visiting Students
Pre-requisites	None

Course Delivery Information

Academic year 2014/15, Available to all students (SV1)		Quota: None
Course Start	Semester 2
Timetable	Timetable
Learning and Teaching activities (Further Info)	Total Hours: 100 ( Lecture Hours 22, Seminar/Tutorial Hours 10, Supervised Practical/Workshop/Studio Hours 1, Formative Assessment Hours 1, Summative Assessment Hours 3.5, Programme Level Learning and Teaching Hours 2, Directed Learning and Independent Learning Hours 60 )
Assessment (Further Info)	Written Exam 80 %, Coursework 20 %, Practical Exam 0 %
Additional Information (Assessment)	Examination 80% Laboratory 10% Class Test 10%
Feedback	Not entered
Exam Information
Exam Diet	Paper Name		Hours & Minutes
Main Exam Diet S2 (April/May)			1:30
Resit Exam Diet (August)			1:30

Learning Outcomes
On completion of the module, students should be able to: 1. understand abstract concepts in relation to familiar experience 2. transform familiar experience and simple engineering systems into conceptual models 3. apply the basic principles of thermodynamics into analysing conceptual models 4. to use basic mathematical tools in analysing conceptual models

Reading List
Main text-book: �engel and Boles: "Thermodynamics: An Engineering Approach", 5th Edition , McGraw Hill (2006). Additional text-book: Moran & Shapiro, �Fundamentals of Engineering Thermodynamics�, 5th Edition, Wiley (2006). Several texts are available in the Library. For practicals: The worksheets and several handouts on Plotting Graphs, Treatment of Experimental Error, Conclusion Writing and Technical Report Writing.

Additional Information
Course URL	http://www.see.ed.ac.uk/teaching/
Graduate Attributes and Skills	Not entered
Additional Class Delivery Information	Tutorials Thur 2.00pm - 5.00pm
Keywords	Not entered

Contacts
Course organiser	Ms Hannah Chalmers Tel: (0131 6)50 5600 Email: hannah.chalmers@ed.ac.uk	Course secretary	Miss Lucy Davie Tel: (0131 6)50 5687 Email: Lucy.Davie@ed.ac.uk

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