Subventions et des contributions :

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Titre :
Assessing Consequences of Wind Turbine Active Power Control
Numéro de l’entente :
EGP
Valeur d'entente :
24 123,00 $
Date d'entente :
7 mars 2018 -
Organisation :
Conseil de recherches en sciences naturelles et en génie du Canada
Location :
Île-du-Prince-Édouard, Autre, CA
Numéro de référence :
GC-2017-Q4-00732
Type d'entente :
subvention
Type de rapport :
Subventions et des contributions
Informations supplémentaires :

Subvention ou bourse octroyée s'appliquant à plus d'un exercice financier (2017-2018 à 2018-2019).

Nom légal du bénéficiaire :
Hall, Matthew (University of Prince Edward Island)
Programme :
Subventions d'engagement partenarial pour les universités
But du programme :

This project aims to provide Canada's leading wind energy test site with the analysis tools needed to explorex000D
new strategies for wind farm operation. The Wind Energy Institute of Canada (WEICan) owns and operates ax000D
10 MW wind farm for power production and research purposes. A growing research interest is in active powerx000D
control, where turbine power output is adjusted on an ongoing basis to meet the fluctuating needs of the localx000D
electricity system. If wind farm output can be adjusted to help match minute-by-minute changes in demand orx000D
other generation, then wind farms can actually assist with stability of the power grid. However, changing ax000D
wind turbine's operation runs the risk of introducing additional structural loads and increasing wear and tear,x000D
ultimately reducing wind farm lifetime or increasing operating costs. Exploring active power control thereforex000D
requires a better understanding of the potential consequences. This is all the more true for a research institutionx000D
such as WEICan, which has interest in experimenting with new and innovative control strategies. To addressx000D
this, the UPEI team will develop simulation models of WEICan's wind turbines. These models will be tuned inx000D
collaboration with WEICan based on measurements of the existing turbines, and then put through differentx000D
scenarios that WEICan has interest in experimenting with. By analysing the simulation results in terms of windx000D
turbines forces and deflections, we can estimate the consequences on wind turbine health from variousx000D
operating strategies and under a range of environmental conditions. Ultimately, these results, and the newlyx000D
developed models used to produce them, will give WEICan insight into what active power control scenarios itx000D
can safely explore with its turbines, enabling future exploration and demonstration of novel wind turbinex000D
operating strategies.