Undergraduate - UnitMEC2405 - Thermodynamics

This unit entry is for students who completed this unit in 2014 only. For students planning to study the unit, please refer to the unit indexes in the the current edition of the Handbook. If you have any queries contact the managing faculty for your course or area of study.

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6 points, SCA Band 2, 0.125 EFTSL

Refer to the specific census and withdrawal dates for the semester(s) in which this unit is offered, or view unit timetables.

Level	Undergraduate
Faculty	Faculty of Engineering
Organisational Unit	Department of Mechanical and Aerospace Engineering
Offered	Clayton First semester 2014 (Day) Malaysia First semester 2014 (Day) Clayton Second semester 2014 (Day) Malaysia Second semester 2014 (Day)
Coordinator(s)	Dr Daniel Mitchell (Clayton); Dr Harun Ismail (Malaysia)

Synopsis

This unit introduces concepts of heat, work, energy, temperature and pressure. The properties of pure substances, steam tables and phase diagrams and their use in thermodynamics problems, First and Second Laws of Thermodynamics and their use in steady and unsteady state problems, Carnot cycle, Gas power cycles, vapour and combined power cycles are introduced. Use of T-s diagrams for power cycle analysis, P-h diagrams in refrigeration cycle analysis and simple combustion processes are covered. Renewable energy such as solar, hydro, wind and biomass, and their use in heating and electricity generation and the environmental benefits of renewable energy conclude study in this unit.

Outcomes

Understand the basic concepts of heat, work, temperature, energy, enthalpy, entropy

Understand the concepts of states and properties of a substance, and how to determine the phase of a substance (solid, liquid, gas) from its properties

Understand the formulation of the First and Second Laws of Thermodynamics

Understand the Carnot cycle as a limiting cycle and its use in defining a temperature scale

Develop skills in applying the First and Second Laws of Thermodynamics to steady and unsteady state problems for open and closed systems

Understand how to calculate changes in internal energy, enthalpy, and entropy from heat and work interactions

Be able to analyse gas power cycles as an example of heat engines: general air cycles (Brayton cycle, Otto cycle, and diesel cycle)

Be able to analyse vapour power cycles as an example of heat engines: Rankine cycle

Develop skills in analysing refrigeration and heat pump cycles and be able to calculate the performance of these cycles

Develop skills in the use of P-v, T-s, and P-h diagrams in solving problems in heat engine and heat pump cycles

Develop skills in the experimental measurement of Thermodynamic quantities and the use of the First and Second Laws of Thermodynamics to analyse experimental systems

Obtain practice in writing a technical report.

Assessment

Examination (3 hours): 70%
Laboratory: 15%
Assignments and Tests: 15%

Chief examiner(s)

Professor Chris Davies

Workload requirements

3 hours lectures, 3 hours practical classes or laboratories and 6 hours of private study per week.

Prohibitions

CHE2120