Thermodynamics and Fluid Mechanics 2
| Code | School | Level | Credits | Semesters |
| MMME2007 | Mechanical, Materials & Manufacturing Engineering | 2 | 20 | Full Year Malaysia |
- Code
- MMME2007
- School
- Mechanical, Materials & Manufacturing Engineering
- Level
- 2
- Credits
- 20
- Semesters
- Full Year Malaysia
Summary
An intermediate module in thermodynamics and fluid mechanics applicable to a wide range of engineering practice, including basic equations for thermo-fluid flows laminar and turbulent boundary layers heat exchangers thermal mixtures and combustion dimensional analysis and similarity condensable vapour cycles compressible flow pumps and compressors heat transfer refrigeration and air conditioning
Target Students
Mainly students from the Department M3, who already have Thermodynamics and Fluid Mechanics 1. Students are accepted from other Departments who can satisfy the prerequisites. Some students transfer from other M3 courses in year 1 directly into year 2, such that they do this module in year 3. Available to JYA/Erasmus students.
Classes
- One 1-hour seminar each week for 24 weeks
- One 3-hour practicum each week for 24 weeks
- One 2-hour lecture each week for 24 weeks
Assessment
- 30% Coursework: Lab experiments
- 30% Exam 1 (2-hour): 2 Hour Exam
- 40% Exam 2 (2-hour): 2 hours Exam
Educational Aims
To apply concepts and principles of thermofluids to fluid mechanics, thermodynamics and heat transfer situations in simplified applied situations.Learning Outcomes
On successful completion of this module students will be able to:
LO1 : Comprehend the concepts of practical thermofluid systems (knowledge and comprehension) - AHEP4: M1; EAC: PO1
LO2 : Represent applications of thermofluids in conceptual form by appropriate formulae (comprehension) - AHEP4: M2; EAC: PO2
LO3 : Quantify the scale of thermofluid situations by appropriate use of thermofluid data tables (application of knowledge)– AHEP4: M1, M13 ; EAC: PO1, PO2
LO4 : Apply the conceptual principles of fluid mechanics and thermodynamics to practical situations (application of knowledge) – AHEP4: M3 ; EAC: PO5
LO5: Analyse complex thermodynamic and fluid systems from real applications (analysis)-AHEP4: M12, M3; EAC: PO5
Conveners
- Dr Yousif Abdalla Abakr Suliman