| Semester 1, 2022 Online | |
| Units : | 1 |
| Faculty or Section : | Faculty of Health, Engineering and Sciences |
| School or Department : | School of Agriculture and Environmental Science |
| Grading basis : | Graded |
| Course fee schedule : | /current-students/administration/fees/fee-schedules |
Staffing
Examiner:
Requisites
Pre-requisite: ENV4203 and ENV2105 or Students must be enrolled in one of the following Programs: PDEV or GCEN or METC or MEPR or GCNS or GDNS or MENS
Overview
The effective treatment of water and disposal of liquid wastes is the responsibility of the local authority engineers in many communities. The primary responsibility in any waste treatment system is to ensure that community health is not endangered, but increasing concern is also being shown that the environment should not be unnecessarily harmed, and that the systems employed are cost effective.
This course revises and builds upon the principles of water and wastewater treatment introduced in ENV4203 Public Health Engineering course. The course aims to develop a higher level of expertise, principally in the areas of water and wastewater treatment methodology, and the design of water and wastewater treatment facilities.
Course learning outcomes
On completion of this course, students should be able to:
- Justify the physical and chemical processes involved in the treatment of surface water including detailed theories of sedimentation
- Design a typical water treatment system for a small community
- Describe wastewater characterisation
- Analyse the principles and biological processes involved in advanced biological wastewater treatment of a typical urban wastewater having organic and nutrient contaminants
- Design the components of wastewater treatment systems tailored to cater for different wastewater compositions
- Evaluate the options available for disposal of treated wastewater and sludge
Topics
| Description | Weighting(%) | |
|---|---|---|
| 1. | Water and wastewater characterization | 5.00 |
| 2. | Design of typical water treatment processes including sedimentation theories | 15.00 |
| 3. | Fundamentals of biological treatment | 10.00 |
| 4. | Organics removal from wastewater including the theory of kinetics and design of a typical activated sludge process | 15.00 |
| 5. | Nitrogen removal from wastewater using nitrification and denitrification including the process kinetics and design | 15.00 |
| 6. | Phosphorus removal from wastewater biologically including the process kinetics and design: alternative chemical processes | 10.00 |
| 7. | Sludge treatment via anaerobic/aerobic digestion and their process design | 10.00 |
| 8. | Disposal of digested sludge | 10.00 |
| 9. | Disinfection processes including chlorination, Ultraviolet and ozone application | 10.00 |
Text and materials required to be purchased or accessed
Student workload expectations
To do well in this subject, students are expected to commit approximately 10 hours per week including class contact hours, independent study, and all assessment tasks. If you are undertaking additional activities, which may include placements and residential schools, the weekly workload hours may vary.
Assessment details
| Description | Group Assessment |
Weighting (%) | Course learning outcomes |
|---|---|---|---|
| Problem Solving 1 | No | 25 | 1,2 |
| Problem Solving 2 | No | 25 | 3,4,5 |
| Time limited online examinatn | No | 50 | 1,2,3,4,5,6 |