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Thermodynamic Modelling (Spring 2012)

Course code : M-TRM-U1
ECTS Credits : 5 Status : Compulsory
Revised : 01/02 2012 Written : 28/01 2010
Placement : 3. semester Hours per week : 4
Length : 1 semester Teaching Language : Danish and English
Objective : To enable the student to apply the Laws of Thermodynamics and relevant equations for the description of energy conversion machines, processes and systems.

A student who has met the objectives of the course will be able to:

• Understand and use fundamental thermodynamic properties such as internal energy, entropy, enthalpy and exergy.
• Make models of closed and open systems.
• Use tables, diagrams and equations of state to determine thermodynamic state properties.
• Do calculations with the 1st and the 2nd Laws of Thermodynamics for control mass and control volumes.
• Determine exchange of work and heat between system and surroundings.
• Analyze the most common thermodynamic processes and cycles (power generation, refrigeration etc.).
• Make simplifications of a real system in order to determine state properties, efficiency and power consumption and production.
• Transform theoretical knowledge to practical problems.
Principal Content : Thermodynamic properties and laws. Conservation of mass and energy. Control volume and control mass. Phase diagrams and cycles. Power plants, engines, refrigerators and other systems for energy conversion. Efficiency.
Required prequisites : Applied mathematics 1 (ME-MAT1)
Relations : Project 3 and the course Fields and Flows (in the 3rd semester).
Type of examination : Two hours written examination
External examiner : Internal
Marking : 7 step scale
Teaching material : Thermodynamics: An Engineering Approach, Seventh Edition (SI Units), including “Student resource DVD”, ISBN-13: 978-007-131111-3, by Yunus A. Çengel and Michael A. Boles, McGraw-Hill 2008.
- Notes on CampusNet.
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