Undergraduate - UnitCHE2164 - Thermodynamics I

This unit entry is for students who completed this unit in 2013 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

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Level	Undergraduate
Faculty	Faculty of Engineering
Organisational Unit	Department of Chemical Engineering
Offered	Clayton First semester 2013 (Day) Sunway First semester 2013 (Day) Clayton Second semester 2013 (Day)
Coordinator(s)	Dr Meng Wai Woo (Clayton); Dr Chong Meng Nan (Sunway)

Synopsis

Introduce fundamentals and applications of classical thermodynamics. Understand the concepts of heat, work, energy, and entropy, the First and Second Laws of Thermodynamics and their application. Introduction to the Carnot cycle and the concept of irreversibility. Understand the use of property diagrams in solving heat engine and heat pump cycles. Understand the operation and analysis of the Brayton, Otto, Diesel and Rankine cycles. Introduction to the analysis of refrigeration and heat pump cycles. Perform experiments to illustrate the concepts of Thermodynamics. Simple combustion processes. Renewable energy and its use in heating and electricity generation and environmental benefits.

Outcomes

understand the basic concepts of energy, work, heat, temperature, state of a system, path and state functions, phase equilibrium and the formulation of the First and Second Laws of Thermodynamics
develop skills in applying the first and second laws of thermodynamics to problems involving open and closed systems in steady and unsteady state situations
calculate changes in internal energy, enthalpy and entropy of simple fluids in the vapour, liquid, and mixed state as a result of heat and work interactions
analyse the performance of gas, vapour power cycles, refrigeration and heat pump cycles with the use of tables T-s, P-v and/or P-h diagrams
develop skills in experimental measurement of processes and the interpretation of experimental data in the context of thermodynamics and to obtain practice in writing a technical report

Assessment

Assignments/Tests/Laboratory: 30%
Examination (3 hours): 70%
Students are required to achieve at least 45% in the total continuous assessment component (assignments, tests, mid-semester exams, laboratory reports) and at least 45% in the final examination component and an overall mark of 50% to achieve a pass grade in the unit. Students failing to achieve this requirement will be given a maximum of 45% in the unit.

Chief examiner(s)

Assoc Professor Karen Hapgood

Contact hours

3 hours lectures, 3 hours practice sessions and/or laboratories and 6 hours of private study per week