| Effective Term: | 2024/05 |
| Institute / School : | Institute of Innovation, Science & Sustainability |
| Unit Title: | Fluid Dynamics |
| Unit ID: | ENGIN3301 |
| Credit Points: | 15.00 |
| Prerequisite(s): | (ENGIN2304) |
| Co-requisite(s): | Nil |
| Exclusion(s): | Nil |
| ASCED: | 030701 |
| Other Change: | |
| Brief description of the Unit |
The unit will consolidate and further extend the principles of fluid dynamics and apply them to a range of engineering and industrial applications and provide the underlying fluid mechanic concepts involved in fluid flow to enable students to analyse more complex applied phenomena. |
| Grade Scheme: | Graded (HD, D, C, P, MF, F, XF) |
| Work Experience Indicator: |
| No work experience |
| Placement Component: | |
| Supplementary Assessment:No |
| Supplementary assessment is not available to students who gain a fail in this Unit. |
| Course Level: |
| Level of Unit in Course | AQF Level(s) of Course | | 5 | 6 | 7 | 8 | 9 | 10 | | Introductory | | | | | | | | Intermediate | | | | | | | | Advanced | | |  | | | |
|
| Learning Outcomes: |
| Knowledge: |
| K1. | Discern and identify advanced fluid dynamics concepts in industrial applications. |
|
| K2. | Interpret and relate appropriate analytical and numerical problem-solving methods to industrial applications involving advanced fluid dynamics concepts. |
|
| Skills: |
| S1. | Translate theoretical knowledge into a controlled laboratory environment. |
|
| S2. | Utilise a range of analytical and numerical methods to explicit and implicit advanced fluid dynamics problems. |
|
| S3. | Distinguish between different solution techniques and methodologies. |
|
| Application of knowledge and skills: |
| A1. | Apply advanced analytical and numerical techniques to solve fluid dynamics problems related to industrial applications. |
|
| A2. | Apply advanced fluid dynamics principles and interpret results gained in a controlled laboratory environment. |
|
| Unit Content: |
•Fluid Dynamics
•Models, Dimensional Analysis and Similitude
•Compressible Flow
•Applications and simulations |
| Graduate Attributes: |
| | Learning Outcomes Assessed | Assessment Tasks | Assessment Type | Weighting | | 1. | K1-K3, S2-S3, A1 | Numerical problems to improve problem-solving skills. | Numerical assignment | 20-30% | | 2. | K3, S1, A2 | Practical experience of the advanced fluid dynamics system | Lab report | 15-20% | | 3. | K1-K3, S2-S3, A1 | Numerical problems and real engineering scenarios to test students application of key fluid dynamics concepts and problem solving methodology. | Quiz/Tests/Final Exam | 10-50% |
|