Watershed Risk Management
Mar 27 - 28, 2023 /
Course Code: 13-0302-ONL23
This course is held online over 2 days on the following schedule (All times in Eastern Time Zone):
10:00 am to 6:00 pm Eastern (Will include the usual breaks)
After participating in this course, you will be able to:
- Understand uncertainty in risk assessment
- Understand how uncertainty in climate change analyses can propagate through hydrological modelling
- Discover select tools and methods used in watershed risk management
- Develop a fundamental understanding of flood risk assessment
Watershed risk assessment and management, primarily in northern regions, will be addressed in this course. This course will introduce risk fundamentals and tools and how risk can be assessed in hydrological and hydraulic models. It is tailored to an audience of non-specialist professionals.
- Risk fundamentals
- Climate change
- Basin hydrology
- Fluvial Floods
Who Should Attend
Professionals involved in the management of risk in the water sector, including: Water Resource Engineers and Specialists • River Engineers • Environmental Specialists • Project Managers • Civil Engineers • Technologists and Technicians • Engineering Consultants
Time: 10:00 AM - 6:00 PM Eastern Time
Please note: You can check other time zones here.
Day 1 – Hydrology and Climate Change (Saman Razavi)
- Classic approaches based on probability and return periods
- Uncertainty sources and the notion of deep uncertainty
- Stationarity assumptions in a non-stationary world
- IPCC scenarios of socio-economic changes
- Insights through climate models
- Incorporating climate change data into hydrological calculations
- Watershed parametrizations
- Hydrologic model calibration and uncertainty analysis
- Hydrologic uncertainties affecting risks
- Hydrological risk
Day 2 – Surface Waters (Karl-Erich Lindenschmidt)
- Open-water floods
- Ice-jam floods
- Flow frequency distributions
- Stage frequency distributions
- Flood risk mapping and assessment
- Flood risk mitigation
Karl is an associate professor at the University of Saskatchewan and member of APEGS.
He holds a Bachelor of Science in Mechanical Engineering from the University of Manitoba, a Master of Applied Science in Mechanical Engineering from the University of Toronto and a PhD in Environmental Engineering from the Technical University of Berlin. Before his appointment at the University of Saskatchewan, Karl was with the Manitoba Water Stewardship as a hydrologic modelling research engineer where one of his research topics involved monitoring and modelling river ice processes along the Red, Assiniboine and Dauphin Rivers.
His knowledge on river ice processes aided Red River Floodway operations, the Ice Jam Mitigation Program along the lower Red River and flood risk management of the Lake St. Martin/Dauphin River System. He has also extended his portfolio of river ice work and research to include the Slave River in the Northwest Territories, the Peace and Athabasca rivers in Alberta, and the South Saskatchewan and Qu'Appelle rivers in Saskatchewan.
Dr. Saman Razavi is an Associate Professor of hydrology and water resources engineering at the School of Environment and Sustainability, Department of Civil, Geological and Environmental Engineering, and Global Institute for Water Security, University of Saskatchewan. He received Ph.D. in civil engineering from the University of Waterloo in 2013. Dr. Razavi’s research work is at the science-policy interface, bridging hydrological modelling and prediction of flood and drought events to integrated management of water and environmental systems and decision and policy making. He develops methods based on systems and data sciences, sensitivity and uncertainty analysis, and machine learning. He is the lead developer of VARS-Tool, which is a toolbox for sensitivity and uncertainty analysis (https://vars-tool.com/), and the Principal Investigator of Integrated Modelling Program for Canada (https://gwf.usask.ca/impc/). Dr. Razavi has taught courses in engineering hydrology at the undergraduate level where he modernized the existing curriculum. At the graduate level, he has offered advanced courses in watershed modelling, optimization, and sensitivity and uncertainty analysis. Dr. Razavi has advised governments on important water related issues including drainage impacts in the prairies, water licensing and allocation, and tradeoffs between irrigation expansion, hydropower and environmental or cultural flows. He contributes to the engineering and scientific community through his role in editorial boards of Journal of Hydrology, Environmental Modelling & Software, and Frontiers in Water. He is also the Past-Chair of American Geophysical Union (AGU)’s Technical Committee on Hydrologic Uncertainty and has run many sessions at multiple national and international conferences. Dr. Razavi is the recipient of several awards, including the 2020 Early Career Research Excellence Award from the International Environmental Modeling and Software Society and the 2019 Young Scientist Award from the Canadian Geophysical Union. His research has been featured in media, such as CBC, CTV, and Radio Canada.
NOT INTERESTED IN THIS COURSE?
We always want to improve the quality of our courses. Please select any reasons why you feel this course is inadequate (check all that apply).
We currently do not have enough attendee responses to generate a rating for this course.
Fee & Credits
$1295 + taxes
- 1.4 Continuing Education Units (CEUs)
- 14 Professional Development Hours (PDHs)
- ECAA Annual Professional Development Points
REQUEST A QUOTE
Canada Job Grant
Your company may be eligible for funding! LEARN MORE