Bachelor of Engineering Honours
Mechanical Engineering with Space stream
Energy and the Environment specialisation
Energy and the Environment specialisation |
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| Students in the Mechanical or Mechanical with Space stream must complete 18 credit points to achieve this specialisation. |
| Unit of study | Credit points | A: Assumed knowledge P: Prerequisites C: Corequisites N: Prohibition |
|---|---|---|
| Students complete the following core unit: | ||
| AMME5101 Energy and the Environment |
6 | A Students are expected to be familiar with the basic laws of thermodynamics, fluid mechanics and heat transfer; P MECH3260 or MECH8260 or MECH9260 or AERO3261 or AERO8261 or AERO9261 or CHNG2803 N AMME8101 |
| MECH5275 Renewable Energy |
6 | A The student will need a sound background in advanced level fluid mechanics, thermodynamics and heat transfer. In particular, students should be able to analyse fluid flow in turbomachinery; perform first and second law thermodynamic analysis of energy conversion systems, including chemically reacting systems; and perform advanced level calculations of conductive and convective and radiative heat transfer, including radiative spectral analysis P (MECH3260 and MECH3261) or (AMME2262 and CHNG2803 and MECH3261) or (MECH8260 and MECH8261) or (MECH9260 and MECH9261) or (AERO3260 and AERO3261) or (AERO8260 and AERO8261) or (AERO9260 and AERO9261) N MECH6275 |
| Students complete 12 credit points from the following: | ||
| AMME5202 Computational Fluid Dynamics |
6 | A Partial differential equations; Finite difference methods; Taylor series; Basic fluid mechanics including pressure, velocity, boundary layers, separated and recirculating flows. Basic computer programming skills; |
| AMME5510 Vibration and Acoustics |
6 | P (AMME2301 or AMME9301) and (AMME2200 or AMME2261 or AMME9261) and (AMME2500 or AMME9500) N AMME8510 |
| MECH5255 Air Conditioning and Refrigeration |
6 | A Students are expected to be familiar with the basic laws of thermodynamics, fluid mechanics and heat transfer P MECH3260 or MECH8260 or MECH9260 N MECH4255 or MECH6255 |
| MECH5265 Combustion |
6 | A Students are expected to be familiar with the basic laws of thermodynamics, fluid mechanics and heat transfer P (MECH3260 or MECH8260 or MECH9260) and (MECH3261 or MECH8261 or MECH9261) N MECH4265 or MECH8265 |
| AMME5292 Applied Fluid Dynamics and Turbulence |
6 | A MECH3261 or MECH8261 or MECH9261 or CIVL3612 or CIVL9612 or AERO3260 or AERO8260 or AERO9260 P MECH3261 or MECH8261 or MECH9261 or AERO3260 or AERO8260 or AERO9260 or CIVL3612 or CIVL9612 N AMME6292 |
| MECH5275 Renewable Energy |
6 | A The student will need a sound background in advanced level fluid mechanics, thermodynamics and heat transfer. In particular, students should be able to analyse fluid flow in turbomachinery; perform first and second law thermodynamic analysis of energy conversion systems, including chemically reacting systems; and perform advanced level calculations of conductive and convective and radiative heat transfer, including radiative spectral analysis P (MECH3260 and MECH3261) or (AMME2262 and CHNG2803 and MECH3261) or (MECH8260 and MECH8261) or (MECH9260 and MECH9261) or (AERO3260 and AERO3261) or (AERO8260 and AERO8261) or (AERO9260 and AERO9261) N MECH6275 |
| Students must take three individual units outlined in the table above to be eligible for the specialisation. Units taken for the specialisation will also count toward requirements of the Mechanical or Mechanical with Space stream. |
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