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Undergraduate |
(ENG)
|
Leader:
Offered:
Caulfield First semester 2005 (Day)
Clayton First semester 2005 (Day)
Malaysia First semester 2005 (Day)
Clayton Second semester 2005 (Day)
Malaysia Second semester 2005 (Day)
Synopsis: A systematic approach to solving a wide variety of engineering problems involving the use of mass, energy and momentum balances. Application of block diagrams for problem solving and model development. Simple models for the sizing of equipment involved in momentum, heat and mass transfer operations. Application of the principles to engineering processes including a gas fired power station, LPG processing plant, removal of sulphur dioxide from stack gases and removal of heavy metals from liquid wastes.
Objectives: The student is expected to: Knowledge and Understanding 1. appreciate the importance of momentum, heat and mass transfer in engineering especially the process industry 2. understand the various terms in the General Balance Equation when applied to total mass, component mass, total energy and linear momentum 3. appreciate the importance of the dimensional homogeneity of equations 4. understand the usefulness of analogies Skills 5. apply mass, energy and momentum balances to engineering situations which include steady flow processes with and without reaction steady flow energy transfer systems with specific reference to a gas fired power station steady flow in a pump - pipe system sizing of heat and mass transfer equipment 6. solve complex problems using the computer simulation package - HYSYS Attitudes 7. use the following procedures: check dimensional consistency of any expression used check the order of magnitude of any calculated result check the validity of major assumptions once calculations are completed 8. see applications in the student's area of interest 9. have the confidence to approach complex problems using the tools and techniques developed.
Assessment: Examination (2 hours): 60% + Tests: 40%
Contact Hours: 2 hrs/wk of lectures, 3 hrs/wk of problem solving sessions and 7 hrs/week of private study
Prohibitions: ENG1101