Availabilities:
Not currently available in 2020
Unit Summary
Unit type
UG Coursework Unit
Credit points
12
AQF level
Level of learning
Advanced
Former School/College
Pre-requisites
AGR00215 - Water and Catchment Management AND GLY73001 - Coastal and Fluvial Hydrodynamics
Anti-requisites
Unit aim
Integrates technical knowledge with other contextual factors to develop solutions to complex catchment and floodplain engineering and management problems using a multidisciplinary systems approach. Extends and applies technical knowledge of hydrodynamics and geomorphology to understand and analyse the dynamic interactions between human activities, catchments and the fluvial landscape. Students develop advanced modelling and analysis skills needed to predict the behaviour of complex catchment and floodplain systems and design appropriate engineering infrastructure and management strategies.
Unit content
A systems approach to catchment and floodplain engineering
Impacts of vegetation on catchment and floodplain hydraulics and geomorphology
Human impacts on catchments and floodplains
Urban stormwater management
Hydraulic modelling of streamflow and floods
Engineering design for catchment and floodplain management
Learning outcomes
Unit Learning Outcomes express learning achievement in terms of what a student should know, understand and be able to do on completion of a unit. These outcomes are aligned with the graduate attributes. The unit learning outcomes and graduate attributes are also the basis of evaluating prior learning.
| On completion of this unit, students should be able to: | GA1 | GA2 | GA3 | GA4 | GA5 | GA6 | GA7 | |
|---|---|---|---|---|---|---|---|---|
| 1 | use a systems approach to identify the environmental, social, legal and planning context associated with complex catchment and floodplain systems | |||||||
| 2 | quantify impacts of urban development on stormwater quantity and quality using industry-standard modelling software | |||||||
| 3 | construct one- and two-dimensional numerical hydraulic models of water movement in rivers and across floodplains using industry-standard software and evaluate and interpret the results | |||||||
| 4 | derive and communicate appropriate solutions to catchment and floodplain engineering problems by using a multidisciplinary systems approach to integrate technical knowledge with other contextual factors. | |||||||
| 5 | undertake reflective analysis of progress towards meeting the Engineers Australia Stage 1 Competencies as a result of studying this unit. | |||||||
On completion of this unit, students should be able to:
-
use a systems approach to identify the environmental, social, legal and planning context associated with complex catchment and floodplain systems
- GA1:
- GA4:
-
quantify impacts of urban development on stormwater quantity and quality using industry-standard modelling software
- GA4:
-
construct one- and two-dimensional numerical hydraulic models of water movement in rivers and across floodplains using industry-standard software and evaluate and interpret the results
- GA1:
- GA2:
- GA4:
-
derive and communicate appropriate solutions to catchment and floodplain engineering problems by using a multidisciplinary systems approach to integrate technical knowledge with other contextual factors.
- GA1:
- GA2:
- GA4:
-
undertake reflective analysis of progress towards meeting the Engineers Australia Stage 1 Competencies as a result of studying this unit.
- GA1: