Alec Bernstein attended a workshop convened by the International Hydropower Conference, the World Bank, and the Nordic Development Bank on Hydrologic Risk in Hydropower Dominated Energy Systems in London, UK on November 30th through December 1st. The workshop’s geographic focus was Africa and the main objectives of this training were: (i) to present and discuss the best practices and the new trends internationally adopted in the management of the hydrologic risk in hydropower generation and (ii) inform the representatives from the African countries, potentially exposed, about the suitable mitigation measures and the available hedging mechanisms. Continue reading
The Hydrosystems Research Group has entered a partnership with the World Bank (WB) and the Government of Tanzania to demonstrate freshwater resilience principles in multiple river basins in Tanzania. Group members Casey Brown and Alec Bernstein participated in a World Bank scoping mission from 19 September, 2017 through 27 September, 2017 to lay the framework and connect with partners in country. Continue reading
The Hydrosystems Research Group sent members of its Freshwater Resilience team to Mexico City (Ciudad de Mexico – CDMX) for meetings with partners to advance it’s work on ongoing efforts in the Valley of Mexico.
Hydrosystems Research Group members Casey Brown and Alec Bernstein held a workshop during the International Joint Commissions’ Annual Board Meeting in Washington D.C. on May 3rd. The goal of the meeting was to present the Climate Change Guidance Framework developed by the HRG and to conduct a Global Cafe with Board members to solicit feedback on implementing the Guidance Framework. Continue reading
The week of June 19th, Ph.D. candidate Katherine Schlef visited the International Research Institute for Climate and Society (IRI) and the Water Center at Columbia University in New York. While there, Schlef presented to researchers, postdocs, graduate students, and interns and had valuable collaborative meetings. Schlef’s current research is developing long-term projections of the 100 year flood given the uncertainty associated with future climate. Her focus is on two case studies: the Ohio River basin in the American Midwest, and the Sahelian region of West Africa. She benefited greatly from the climate and statistical expertise at IRI and the Water Center, and looks forward to continuing collaborations.
The UMass Hydrosystems Group completed a week long World Bank Decision Tree Training on April 24th-28th for water managers and decision makers from around the globe. The workshop featured participants from Kenya, Nepal, South Korea, Mexico, Ethiopia, as well as World Bank staff. The Decision Tree Framework is a four-phase assessment methodology developed to understand risk associated with climate change and their potential impacts on water infrastructure.
It is common for major hydroelectric facilities, irrigation schemes, dams, and water supply systems to have 50 to 100 year lifespans. This, coupled with emerging knowledge about long term behavior of the global climate system and changes in other non-climate factors, may affect water system performance in the future. The goal of the workshop was to provide hands on practice utilizing the Decision Tree Framework for evaluating risks associated with climate change.
Participants were led through the steps of the Decision Tree Framework and spent many sessions throughout the week working collaboratively with other participants and trainers. Using Microsoft Excel, R, OpenAgua, and other modeling tools, the workshop trainers led exercises in generating modeling tools for weather generation, hydrologic processes, systems analysis, and stress testing a system for an uncertain future. Participants were eager to learn about the methods used for these different modeling tools, and many are bringing this new knowlege with th to assess climate risk in their home countries.
Earlier this week, the group took a field trip to the U.S. Geological Survey’s S. O. Conte Anadromous Fish Research Center in Turners Falls and the Cabot Station hydroelectric facility and fishway. Fish passage over hydraulic structures is a critical component in the design to ensure species connectivity along a river above and below a facility. This experience allowed the training participants to see a working full-scale fish passage research facility.
The Hydrosystems Group members who were trainers during the week: Casey Brown, Patrick Ray, Katherine Schlef, David Rheinheimer, and Alec Bernstein.
Hydrosystems Research Group member Hassaan Khan recently published an op-ed article in Dawn, Pakistan’s oldest and most widely read English-langugage newspaper.
Follow the link below to the article:
AMHERST, Mass. – The University of Massachusetts Amherst is hosting a World Bank training workshop for water managers from developing countries April 24-28 where participants from six countries will learn about risks associated with climate change and their potential the long-term impacts on water infrastructure.
The training is being conducted by the the Hydrosystems Research Group of the department of civil and environmental engineering at UMass Amherst. There are 13 water managers attending the training along with four World Bank staff members. Participants from Kenya, Nepal, South Korea, Mexico, Ethiopia and the U.S. will learn how climate change can affect hydropower facilities, dams and water supply systems. It is common for major infrastructure projects to be designed with an expected operating life of 50 or even 100 years. Emerging knowledge about the long-term behavior of the global climate system and changes in other non-climate factors that may affect water system performance means that water systems infrastructure planning is a process of decision making under uncertainty.
Casey Brown, associate professor of civil and environmental engineering at UMass Amherst, one of the organizers of the training, says this event shows the key role the university plays in preparing officials around the world for the future climate. “The engineering profession is at a change point. We need to design infrastructure to be resilient in a world of change. We have water planners from around the world here to learn how.”
The training workshop will provide background on the Decision Tree Framework, developed by Brown and Patrick Ray, former research professor at UMass Amherst and currently an assistant professor at the University of Cincinnati. The Decision Tree Framework is a four-phase assessment methodology developed to understand risk associated with climate change and their potential impacts on water infrastructure.
Training sessions take place at the UMass Amherst Campus Center and will include sessions for participants to learn climate change science as well as hands-on sessions to develop modeling tools for evaluating water infrastructure systems. Earlier this week, the group took a field trip to the U.S. Geological Survey’s S. O. Conte Anadromous Fish Research Center in Turners Falls and the Cabot Station hydroelectric facility and fishway. Fish passage over hydraulic structures is a critical component in the design to ensure species connectivity along a river above and below a facility. This experience allowed the training participants to see a working full-scale fish passage research facility.
The Hydrosystems Research Group will be hosting a week long Decision Tree Framework training on April 25th through 28th on the University of Massachusetts campus in Amherst, Massachusetts. The sessions will be focused on applying the Decision Tree Framework to address uncertainty in water resources planning and project design. Participants will bring their own system information and data and will be guided through the decision tree process during the course of the week. Training sessions will be conducted by Hydrosystems Group members Dr. Casey Brown, Dr. Patrick Ray, and Ms. Katherine Schelf.
Anyone interested in attending should contact firstname.lastname@example.org for information and the application for the event as soon as possible.