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Handbook 1997 : Faculty of Engineering : Mechanical and Manufacturing Engineering

436-203 Fundamental Thermodynamics

Credit Points:

7.1

Coordinator:

Dr K.C. Brown

Prerequisite/s:

Level 1 Mathematics.

Timetable:

Semester 1

Contact:

23 hours of lectures and 16 hours of tutorials and laboratory

Objectives:

Upon completion students should have developed an understanding of the laws of thermodynamics and physical thermodynamic property relationships, and the ability to apply these principles to engineering systems, including:

  • ability to apply the first law of thermodynamics to non-flow and steady flow processes;

  • understand the second law of thermodynamics and the limitations to thermodynamic processes;

  • formulate equations for process performance and cycle efficiency.

  • carry out combustion analysis.

Content:

Heat and work, ideal non-flow and flow processes. Laws of thermodynamics, Carnot's principle, Clausius inequality, direct and reversed heat engines, thermal and isentropic efficiencies. Properties of pure substances, change of phase. Representation of properties, steam and air tables. Vapour equation of state, ideal gases. Non-reactive mixtures of ideal gases, Dalton's law. Reactive mixtures, gas analyses, stoichiometric combustion. Ideal power cycles.

Assessment:

A three-hour examination; tutorial tests, assignments and laboratory reports not exceeding 20 pages.
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Handbook 1997 : Faculty of Engineering : Mechanical and Manufacturing Engineering 
Status:                   OFFICIAL 1997
Last Modified:            Wednesday March 12 3:36 pm
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Email Enquiries:          Course_Information@registrar.unimelb.edu.au
Copyright © University of Melbourne 1997.