Climate experts and engineers have created a new model to predict the damage caused by adverse weather. This new framework for 'consequence forecasting' enables first responders to effectively target resources prior to an extreme weather event, such as Storm Eunice.
From:
Newcastle University
February
18, 2022 -- Climate experts and engineers have created a new model to predict
the damage caused by adverse weather. This new framework for 'consequence
forecasting' enables first responders to effectively target resources prior to
an extreme weather event, such as Storm Eunice.
The pre-event decision-making model
works by first developing relationships between wind speed and faults on the
electricity network. The relationships are then used to estimate faults of
electricity networks and potential customer interruptions. This model can be
used as early as 24 hours before extreme weather events.
Published in the journal Climate
Risk Management, the study findings can enable effective first response to
manage infrastructure systems impacted by hazardous weather. Having the
forecasting tools to predict and prepare for storm damage will reduce the
societal consequences of extreme weather, including power loss for customers
and fines for electrical distribution companies.
The study was led by Dr Sean Wilkinson
of Newcastle University's School of Engineering, and involved experts from the
Met Office and EPFL, Lausanne, Switzerland. The team used an advanced weather
numerical model to develop the prediction system.
The framework presented in the paper
applies to an electricity distribution network threatened by approaching
windstorms. However, it could equally be applied to other infrastructure
systems or elements of the built environment, or any type of weather event.
Dr Wilkinson said: "Our model has
the potential to change the way we manage weather and climate risks to our
infrastructure networks. While electricity network operators already prepare
extra resources when a storm approaches, predicting how many power lines may be
blown down and where these are likely to be located will allow them to better
target the necessary resources to more quickly repair any damage. This is
likely to become even more important in the future as our changed climate is
predicted to produce more frequent and more intense storms and some of these
may be beyond the experience of the people tasked to deal with them."
Study co-author, Professor Hayley
Fowler, of Newcastle University's School of Engineering, added: "This
consequence forecasting is so important for planning emergency response in
fast-evolving storms like Eunice. Our model could be used to regularly update
energy companies and other infrastructure operators on the potential
consequences of approaching storms, as forecasts are updated in real-time. This
is particularly relevant since the first very high-resolution climate models,
which are also used for today's weather forecasts, predict a significantly
greater increase in the frequency of severe winter storms in Europe with
climate change."
https://www.sciencedaily.com/releases/2022/02/220218110721.htm
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