Monthly Archives: May 2018

Study Published by Research Scientist Dr. David Siuta

Atmospheric Sciences Research Scientist Dr. David Siuta recently had a manuscript titled Benefits of a Multimodel Ensemble for Hub‐Height Wind Prediction in Mountainous Terrain accepted for publication in Wind Energy detailing the benefits of using an ensemble forecast for energy planning.

Integration of renewable wind energy sources into the electric transmission grid has created new challenges for energy planners. Winds are highly variable and power generated by wind fluctuates with wind speed. Energy planners need to be able to anticipate these fluctuations to keep electricity supplied to the grid in sync with demand. Numerical weather prediction is key to effectively integrate wind resources, which supplies future estimates of wind power generation. Weather forecasts are used several hours to several days in advance to manage which generation sources will be used to supply power to the grid, which resources can be freed up to perform maintenance, and how much electricity is available to be traded on the market.

Weather forecasts, however, are imperfect due to incomplete initial conditions, assumptions in model physics, and the poor representation of terrain and complex flows. In the past, small reductions in forecast error have been shown to result in substantial annual savings to electric grid operators through optimized grid planning strategies. Dr. Siuta’s recent publication explains one method to achieve reduced forecast error through use of ensembles. He used a 36-member mesoscale ensemble forecast system run by the University of British Columbia to show that, on average, reductions in forecast error by using an ensemble mean forecast over a single-model forecast is between 10 and 20% through a seven-day forecast horizon. Additionally, the ensemble mean provided a minimum of an additional two days of forecast skill over the ensemble member forecasts when compared to a reference climatology forecast (see figure). In the same work, Dr. Siuta also shows a method to produce calibrated probabilistic forecasts and the effect of an ensemble on reducing forecast uncertainty.

Growth in forecast mean absolute error (MAE) for each ensemble member forecast (colored curves), the ensemble mean (thick black curve) and climatology (solid pink curve). Lower values are better. MAE values shown are calculated over a one-year verification period at four wind farms in British Columbia. The ensemble mean is the most skilled forecast until a forecast horizon of ~147 hours (~6 days), after which a climatology forecast has better accuracy.

Talk About Climate Change: Empowering the Next Generation

As a NOAA Weather-Ready Nation Ambassador™, student members of the Lyndon AMS & NWA Club are working closely with Lyndon’s Climate Change Communication Group. They are serving as change agents by inspiring and empowering Vermont communities who are concerned about climate change to talk about climate change.

Encouraging youth to talk about climate change

Atmospheric Sciences students and faculty recently held school-wide assemblies at two Vermont middle and high schools, Danville School and Woodstock Union High School and Middle School. These were well attended by more than 100 students at Danville School and nearly 600 students at Woodstock Union High School and Middle School. During these events, Atmospheric Sciences faculty discussed the science of climate change. Student Jonathan Hutchinson talked about climate change solutions. Several students facilitated breakout sessions. These sessions addressed questions and concerns as well as identifying specific climate action items and strategies for improved climate change communication that the students could use to talk about climate change among family and friends.

About the Weather-Ready Nation Ambassador™ Initiative

The Weather-Ready Nation Ambassador™ initiative is the National Oceanic and Atmospheric Administration’s (NOAA) effort to formally recognize NOAA partners who are improving the nation’s readiness, responsiveness, and overall resilience against extreme weather, water, and climate events. WRN Ambassadors serve a pivotal role in affecting societal change — helping to build a nation that is ready, responsive, and resilient to the impacts of extreme weather and water events. Visit to learn more.