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W
weatherapi.com
article
https://www.weatherapi.com/
{'location': {'name': 'Global', 'region': 'Maguindanao', 'country': 'Filipinas', 'lat': 7.3958, 'lon': 124.3069, 'tz_id': 'Asia/Manila', 'localtime_epoch': 1782889318, 'localtime': '2026-07-01 15:01'}, 'current': {'last_updated_epoch': 1782888300, 'last_updated': '2026-07-01 14:45', 'temp_c': 27.7, 'temp_f': 81.9, 'is_day': 1, 'condition': {'text': 'Light rain shower', 'icon': '//cdn.weatherapi.com/weather/64x64/day/353.png', 'code': 1240}, 'wind_mph': 5.4, 'wind_kph': 8.6, 'wind_degree': 281, 'wind_dir': 'W', 'pressure_mb': 1008.0, 'pressure_in': 29.77, 'precip_mm': 0.48, 'precip_in': 0.02, 'humidity': 84, 'cloud': 52, 'feelslike_c': 31.9, 'feelslike_f': 89.4, 'windchill_c': 27.7, 'windchill_f': 81.9, 'heatindex_c': 32.2, 'heatindex_f': 90.0, 'dewpoint_c': 24.7, 'dewpoint_f': 76.4, 'vis_km': 10.0, 'vis_miles': 6.0, 'uv': 7.4, 'gust_mph': 8.8, 'gust_kph': 14.1, 'will_it_rain': 0, 'chance_of_rain': 43, 'will_it_snow': 0, 'chance_of_snow': 0}}
E
energy.gov
official
https://www.energy.gov/cmei/systems/articles/wind-turbines-extreme-weather-so…
An official website of the United States government. A **.gov** website belongs to an official government organization in the United States. Offshore wind turbines on the Atlantic coast (as well as the Gulf Mexico) have several challenges to contend with—including hurricanes. *This blog is part of a series that explores offshore wind technical challenges that are different in the U.S. than in other countries.*. The Energy Department is developing tools to help wind system designers lower the risk for offshore wind turbine systems located in extreme weather areas. However offshore wind turbines on the Atlantic coast (as well as the Gulf Mexico), have another challenge to contend with: hurricanes, which we’ll explore below. It is used for hurricane research and prediction to create a new “Coupled Hydro-Aerodynamic Interface for Storm Environments.” This tool helps wind system designers to lower the risk for offshore wind turbine systems located in extreme weather areas.
N
news.ucar.edu
research
https://news.ucar.edu/132995/wind-turbines-can-withstand-hurricanes
| **Impact statement:** Understanding the impacts of extreme weather events like intense winds, high waves, and torrential rain can help the energy industry design offshore wind turbines that can withstand hurricanes and other powerful storms. As energy developers plan to ramp up U.S. offshore wind production, they need to design turbines that can withstand hurricanes and other powerful storms. Although intense winds, high waves, and torrential rains can severely damage turbines and other wind farm infrastructure, the impacts of such extreme weather events are not fully understood by the energy industry. The scientists, led by Argonne National Laboratory with co-authors at the U.S. National Science Foundation National Center for Atmospheric Research (NSF NCAR), concluded that more research is needed to strengthen the resilience of next-generation offshore wind turbines against extreme weather conditions. The research is part of a larger effort by scientists at NSF NCAR and collaborators to better understand and predict the impact of weather conditions and changing climate on offshore wind production.
E
eureka.patsnap.com
article
https://eureka.patsnap.com/report-how-vertical-wind-turbines-perform-under-se…
Lead Compound Search & Pharma Analysis. # How Vertical Wind Turbines Perform Under Severe Weather Events. ## Vertical Wind Turbine Technology Background and Objectives. ## Market Demand for Severe Weather Resilient Wind Energy. ## Current VAWT Performance Limitations in Extreme Weather. ## Existing VAWT Designs for Severe Weather Conditions. ### 01 Blade design and aerodynamic optimization. ### 02 Structural configuration and rotor architecture. ### 03 Power generation and energy conversion systems. ### 04 Performance monitoring and control optimization. ### 05 Installation and environmental adaptation. ## Major Players in VAWT and Extreme Weather Solutions. ### Vestas Wind Systems A/S. ### Siemens Gamesa Renewable Energy AS. ## Core Innovations in Weather-Resistant VAWT Systems. ## Environmental Impact Assessment of VAWT Deployment. ## Safety Standards for Wind Turbines in Severe Weather.
Y
youtube.com
video
https://www.youtube.com/watch?v=BrBsi2WC45A
Offshore Wind Turbine Design for Extreme Weather Events (Learning from the Experts)
NYSERDA
3220 subscribers
350 views
13 Nov 2024
November 7, 2024. In this webinar, Dr. Bruce Bailey with University of Albany's Center of Excellence for Weather and Climate Analytics discusses considerations for designing offshore wind projects to withstand extreme weather events, such as hurricanes.
This webinar is part of the series Learning from the Experts hosted by NYSERDA’s Offshore Wind Team and featuring experts in key topics in offshore wind, including wind farm technologies, development practices, regulatory processes, and research initiatives. For more information on this series and presentation slides, visit nyserda.ny.gov/osw-webinar-series.
N
nyserda.ny.gov
official
https://www.nyserda.ny.gov/-/media/Project/Nyserda/Files/Programs/Offshore-Wi…
> If technical problems arise, please contact Adam.Hauck@nyserda.ny.gov You'll see when your microphone is muted Webinar recordings and presentations will be available at: www.nyserda.ny.gov/osw-webinar-series Offshore Wind Turbine Design for Extreme Weather Events Dr. Bruce Bailey Executive in Residence Center of Excellence for Weather & Climate Analytics University at Albany November 2024 P 1 Talking Points • Global Perspective • Extreme Event Types in the NE US • The Metocean Environment • Designing Projects for Norms & Extremes • Estimating Extreme Probabilities • East Coast Storm Risks • Climate Change P 2 Source: Global Energy Monitor Over 300 Offshore Wind Energy Projects Worldwide = 75 GW First offshore wind farm installed in 1991 P 3 Main Sources of Extreme Winds & Waves in Northeast US Squall Lines Extratropical Cyclones / Nor’easters Tropical Cyclones / Hurricanes P 4 External Metocean Factors Source: DHI P 5 Key Metocean Parameters Atmosphere Wind speed / direction Turbulence, Wind shear Temp., Pressure, Humidity Air Density Precipitation, icing, visibility Ocean Wave heights, periods, directions Significant wave and peak stats Water levels Currents, breaking waves Temp., salinity, etc.
N
nature.com
article
https://www.nature.com/articles/s41467-025-65105-3
# Increasing extreme winds challenge offshore wind energy resilience. Climate change is amplifying the intensity of extreme strong winds, threatening the development and resilience of offshore wind energy systems. The ability of wind turbines to endure such conditions is determined by the fifty-year return period wind speed (*U**50*), a key parameter for turbine design. Here, we utilize hourly ERA5 wind speed data at 100 meters above sea level from 1940 to 2023 to reveals a significant global increase in oceanic *U**50* of 0.016 m s⁻¹ yr-1 (*p* < 0.01), with upward trends evident in 62.85% of coastal regions. Notably, over 40% of both commissioned and planned offshore wind farms in Asia and Europe have encountered wind speeds exceeding the design threshold of Class III turbines (37.5 m s⁻¹). More than half of these wind farms are situated in regions with increasing *U**50* trends, a pattern strongly associated with changes in tropical and extratropical cyclone activity under global warming.
M
mdpi.com
article
https://www.mdpi.com/2411-5134/11/2/25
A Review of the Ionic Liquids for Hydrogen Production by Electrolysis. For articles published under an open access Creative Common CC BY license, any part of the article may be reused without permission provided that the original article is clearly cited. Feature papers represent the most advanced research with significant potential for high impact in the field. Editor’s Choice articles are based on recommendations by the scientific editors of MDPI journals from around the world. Editors select a small number of articles recently published in the journal that they believe will be particularly interesting to readers, or important in the respective research area. The aim is to provide a snapshot of some of the most exciting work published in the various research areas of the journal. The rapid expansion of wind energy into complex and extreme environments has renewed interest in vertical-axis wind turbines (VAWTs) due to their omnidirectional operation, compact footprint, and potential resilience under harsh operating conditions. vertical-axis wind turbine (VAWT); savonius turbine; darrieus turbine; extreme environments; wind energy; wind turbine.