TGS Completes Largest US East Coast Wind, Metocean Survey

TGS said the data for this project was collected from July 2022 through July 2024 and covered 600 km from Massachusetts to the Virginia-North Carolina border.

Hart Energy Staff

TGS has completed a two-year mega-regional wind and metocean data collection campaign along the U.S. East Coast鈥攖he largest of its kind in the region.

The campaign involved deploying and operating five offshore LiDAR buoys covering 600 km from Massachusetts to the Virginia-North Carolina border. The buoys collected a range of wind and metocean data, including wind speed and direction, wave heights and ocean current data across the full water column.

鈥淭hese unique measurements empower developers to accurately assess the true wind resource variability across most of the U.S. East Coast offshore wind lease areas,鈥� Carel Hooijkaas, executive vice president of new energy solutions at TGS, said in the July 24 press release.

The collected data was used to bias-correct TGS鈥� Numerical Weather Prediction (NWP) model simulations, making it the most validated high-resolution wind resource dataset along the U.S. East Coast.

TGS said that both the quality-controlled measurement data and the NWP model data are being utilized by developers to inform and refine their bidding strategies for BOEM鈥檚 upcoming Central Atlantic offshore wind lease auction.

Similar initiatives have been successfully deployed in Germany and offshore Norway, with additional campaigns planned globally.

原文链接/HartEnergy

TGS Completes Largest US East Coast Wind, Metocean Survey

TGS said the data for this project was collected from July 2022 through July 2024 and covered 600 km from Massachusetts to the Virginia-North Carolina border.

Hart Energy Staff

TGS has completed a two-year mega-regional wind and metocean data collection campaign along the U.S. East Coast—the largest of its kind in the region.

The campaign involved deploying and operating five offshore LiDAR buoys covering 600 km from Massachusetts to the Virginia-North Carolina border. The buoys collected a range of wind and metocean data, including wind speed and direction, wave heights and ocean current data across the full water column.

“These unique measurements empower developers to accurately assess the true wind resource variability across most of the U.S. East Coast offshore wind lease areas,” Carel Hooijkaas, executive vice president of new energy solutions at TGS, said in the July 24 press release.

The collected data was used to bias-correct TGS’ Numerical Weather Prediction (NWP) model simulations, making it the most validated high-resolution wind resource dataset along the U.S. East Coast.

TGS said that both the quality-controlled measurement data and the NWP model data are being utilized by developers to inform and refine their bidding strategies for BOEM’s upcoming Central Atlantic offshore wind lease auction.

Similar initiatives have been successfully deployed in Germany and offshore Norway, with additional campaigns planned globally.