1 x 2-hour lecture weekly
1 x 2-hour tutorial weekly
1 x 3-hour laboratory per semester
3 x 3-hour computer labs per semester
Enrolment not permitted
ENGR8951 has been successfully completed
Topic description
This topic introduces theoretical and practical elements of hydraulics and water engineering, including the sustainable utilization, treatment and management of water for the benefit of society and the environment. Topics include pipe flow, dam design, pumps, turbines, hydropower, computational techniques, flow measurement, river channel behavior and erosion, water and wastewater treatment, water supply infrastructure, irrigation and drainage, water pollution and water resources management.
Educational aims
Civil engineers should have a sound understanding of hydrology, hydraulics and fluid mechanics, water and wastewater treatment technology, water chemistry and water resources planning and management, including both conceptual processes and mathematical representation. The aim of this topic is to present an introduction to the underlying principles of water engineering, and practical problem-solving techniques applied to contemporary issues in water delivery, treatment, natural system processes and water resources infrastructure and management.
Expected learning outcomes
At the completion of this topic, students are expected to be able to:

  1. Apply theoretical concepts of fluid mechanics and hydraulics to water infrastructure design and operation
  2. Understand the concepts of water and wastewater treatment, and apply these to the design of treatment facilities
  3. Appreciate the processes relevant to problems of flooding and erosion, and develop engineering measures for mitigation
  4. Develop water balance estimates for catchments, and apply concepts of hydrology to the estimation of catchment runoff for the purposes of water resources and flooding infrastructure design
  5. Develop informed planning and management strategies for the sustainable use of water resources