Technical Impacts of High Penetration Levels of Wind Power on Power System Stability. Flynn, D.; Rather, Z.; Ardal, A.; D’Arco, S.; Hansen, A. D.; Cutululis, N. A.; Sorensen, P.; Estanquiero, A.; Gómez-Lázaro, E.; Menemenlis, N.; Smith, C.; and Wang, Y. Lund, P.; Byrne, J. A.; Haas, R.; and Flynn, D., editors. Advances in Energy Systems. The Large‐scale Renewable Energy Integration Challenge, pages 47–66. John Wiley & Sons Ltd, 2019. bibtex @inbook{Lund:John-Wiley-Sons:power-system-stability:2019,
author = {D. Flynn and Z. Rather and A. Ardal and S. D’Arco and
A. D. Hansen and N. A. Cutululis and P. Sorensen and
A. Estanquiero and E. Gómez-Lázaro and
N. Menemenlis and C. Smith and Y. Wang},
chapter = {Technical Impacts of High Penetration Levels of Wind
Power on Power System Stability},
editor = {P.D. Lund and J. A. Byrne and R. Haas and D. Flynn},
pages = {47--66},
publisher = {John Wiley \& Sons Ltd},
title = {Advances in Energy Systems. {T}he Large‐scale
Renewable Energy Integration Challenge},
year = {2019},
isbn = {9781119508281},
}