The ratio (unit: %) of the frequency of each wind velocity range to the total frequency of ERA5 three–hourly wind velocity for the past 40 years (1979–2018) over East Asia. Credit: Renewable and Sustainable Energy Reviews (2024). DOI: 10.1016/j.rser.2024.114747

Rising carbon emissions may lead to decreased wind power potential in autumn in South Korea

by · Tech Xplore

As the world grapples with the effects of climate change, a recent study has shed light on the potential impacts of climate warming in East Asia on the regional future wind power potential (Wpot).

Led by Professor Dong-Hyun Cha from the Department of Civil, Urban, Earth, and Environmental Engineering at UNIST, the research team published their findings in Renewable and Sustainable Energy Reviews, highlighting the effects of warming on wind power potential in East Asia through the development of high–resolution climate models.

The study utilized numerical models alongside the global climate models (GCMs) to create detailed climate projections for East Asia, assessing the Wpot under various carbon emission scenarios.

Findings indicate that northern China and southern Mongolia emerge as the regions with the highest Wpot climatology within East Asia, primarily due to the relatively significant contribution of 12 m s-1 to 25 m s-1 wind velocity range, which is optimal for wind power generation, to the future Wpot in these regions.

For the Korean Peninsula, Wpot is expected to increase in a scenario with enhanced emissions by the middle of the 21st century, but it is likely to diminish by the end. Notably, if carbon emissions continue to escalate, there are concerns that wind power potential in the autumn months may decline. Moreover, the study predicts that regional disparities in the Wpot will increase in a scenario with enhanced emissions across East Asia by the end of the 21st century.

"At a time when major East Asian nations are increasing their reliance on renewable energy sources such as wind power in response to international initiatives like the Paris Agreement and RE100, this research can serve as a policy guide for identifying optimal locations to enhance wind power generation efficiency," said Research Professor Changyong Park, the first author of the study.

This research was conducted as part of the Coordinated Regional Climate Downscaling Experiment (CORDEX) project, which aims to provide future climate information at a regional scale using advanced numerical modeling techniques. CORDEX is managed by the World Climate Research Program (WCRP), under the auspices of the World Meteorological Organization (WMO). UNIST has been an active participant in this project since 2013.

Professor Cha emphasized, "We will continue to advance high-resolution climate models to proactively address climate change across various sectors, including renewable energy."

More information: Changyong Park et al, Impact of global warming on wind power potential over East Asia, Renewable and Sustainable Energy Reviews (2024). DOI: 10.1016/j.rser.2024.114747

Provided by Ulsan National Institute of Science and Technology