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Updated in [May 25th, 2023]
River Engineering is a course that provides students with an understanding of the physical properties and equations of river flow, as well as the dynamics of rivers and river engineering. In Week 1, students will learn about physical properties and equations, such as dimensions and units, properties of water and sediment, river flow kinematics, conservation of mass, equations of motion, and hydraulic and energy grade lines. Week 2 will focus on steady flow in rivers, including steady river flow, steady-nonuniform river flow, and sediment transport in rivers. Week 3 will cover unsteady flow in rivers, such as river continuity equation, river momentum equations, river flood waves, loop-rating curves, river flood routing, and river flow and sediment-duration curves. Week 4 will focus on river equilibrium, including particle stability, channel stability, regime relationships, equilibrium in river bends, downstream hydraulic geometry, bars in alluvial rivers, river meandering, and lateral river migration. Week 5 will cover river dynamics, such as river dynamics, riverbed degradation, riverbed aggradation, river confluences and branches, and river databases. Week 6 will focus on river stabilization and river training work, such as riverbank stability, riverbank riprap revetment, riverbank protection, river flow-control structures, and river training along braided rivers. Week 7 will cover river engineering, such as river flood control, river closure, canal headworks, bridge scour, and navigation waterways. Finally, Week 8 will focus on river modelling, such as rigid-bed model, mobile-bed river models, finite-difference approximations, one-dimensional river models, and multidimensional river models.
[Applications]
Upon completion of this course, students will be able to apply their knowledge of river engineering to a variety of real-world scenarios. They will be able to use the equations and principles learned to analyze river flow, sediment transport, and river stability. They will also be able to use river models to simulate river flow and sediment transport, and to design river training works and river engineering projects. Additionally, they will be able to use river databases to analyze river dynamics and to design river flood control and river closure projects.
[Career Paths]
1. River Engineer: River Engineers are responsible for designing, constructing, and maintaining river systems. They must have a strong understanding of hydrology, hydraulics, and sediment transport. They must also be able to analyze data and develop models to predict river behavior. River Engineers must be able to work with a variety of stakeholders to ensure that their projects are successful. The demand for River Engineers is increasing due to the need for more efficient and sustainable river management.
2. River Restoration Specialist: River Restoration Specialists are responsible for restoring rivers to their natural state. They must have a strong understanding of river ecology and be able to identify and address problems that are impacting the health of the river. They must also be able to develop and implement restoration plans that are cost-effective and sustainable. The demand for River Restoration Specialists is increasing due to the need for more efficient and sustainable river management.
3. River Management Consultant: River Management Consultants are responsible for providing advice and guidance to organizations and governments on river management. They must have a strong understanding of river systems and be able to identify and address problems that are impacting the health of the river. They must also be able to develop and implement management plans that are cost-effective and sustainable. The demand for River Management Consultants is increasing due to the need for more efficient and sustainable river management.
4. River Hydrologist: River Hydrologists are responsible for studying the hydrology of rivers. They must have a strong understanding of hydrology and be able to identify and address problems that are impacting the health of the river. They must also be able to develop and implement management plans that are cost-effective and sustainable. The demand for River Hydrologists is increasing due to the need for more efficient and sustainable river management.
[Education Paths]
1. Bachelor of Science in River Engineering: This degree program focuses on the study of rivers and their engineering applications. Students learn about the physical properties of rivers, the equations of motion, sediment transport, river flood waves, river flood routing, river flow and sediment-duration curves, riverbank stability, riverbank protection, river training, river flood control, river closure, canal headworks, bridge scour, navigation waterways, and river modelling. This degree program is becoming increasingly popular as the need for river engineering solutions grows.
2. Master of Science in River Engineering: This degree program builds on the knowledge gained in a Bachelor of Science in River Engineering. Students learn more advanced topics such as river dynamics, riverbed degradation, riverbed aggradation, river confluences and branches, river databases, riverbank riprap revetment, river flow-control structures, river training along braided rivers, river closure, canal headworks, bridge scour, navigation waterways, and river modelling. This degree program is becoming increasingly popular as the need for river engineering solutions grows.
3. Doctor of Philosophy in River Engineering: This degree program is the highest level of study in the field of river engineering. Students learn advanced topics such as river dynamics, riverbed degradation, riverbed aggradation, river confluences and branches, river databases, riverbank riprap revetment, river flow-control structures, river training along braided rivers, river closure, canal headworks, bridge scour, navigation waterways, and river modelling. This degree program is becoming increasingly popular as the need for river engineering solutions grows.
4. Master of Engineering in River Engineering: This degree program focuses on the application of engineering principles to the study of rivers. Students learn about the physical properties of rivers, the equations of motion, sediment transport, river flood waves, river flood routing, river flow and sediment-duration curves, riverbank stability, riverbank protection, river training, river flood control, river closure, canal headworks, bridge scour, navigation waterways, and river modelling. This degree program is becoming increasingly popular as the need for river engineering solutions grows.