Add to ORKGIEEE PES 2011 General Meeting, Detroit, Michigan, USA, July 24-28, 2011As wind penetration levels on power systems increase worldwide, the dynamic characteristics of these systems are changing due to the displacement of synchronous generation. One issue, of particular concern, is the resulting reduction in system inertia. Modern, variable speed wind turbines are controlled by power electronics and so do not inherently contribute to the inertial response of the system. Such devices can however be fitted with a control loop which provides an active power response to significant frequency deviations, similar to the inertial response of fixed speed wind turbines and synchronous generation. However, the response of variable speed turbines is dep...
The significant presence of variable-speed wind turbines in worldwide power systems has led to plann...
Models have been developed to assess the extent that wind plant can contribute to power system frequ...
With the rapid development of wind power generation, the inertial response of wind turbines (WTs) ha...
IEEE PES 2011 General Meeting, Detroit, Michigan, USA, July 24-28, 2011As wind penetration levels on...
The increasing penetration of variable speed wind turbines in the electricity grid will result in a ...
In order to limit anthropogenic climate change as well as the dependency on fossil fuels, the wind p...
12th International Workshop on Large-Scale Integration of Wind Power into Power Systems as well as o...
2012 IEEE Power & Energy Society General Meeting. New Energy Horizons - Opportunities and Challenges...
Despite being inherently non-responsive to system frequency events, variable speed wind turbines (VS...
Abstract—Due to the differing electromechanical characteristics of modern variable speed wind turbin...
This paper provides an assessment and implementation of inertia response from variable speed wind tu...
2016 CIGRE Session, Paris, France, 21-26 August 2016Worldwide, variable-speed wind turbine and solar...
The objective of this paper is to analyze and quantify the inertia and frequency responses of wind p...
With increasing wind penetration, it is likely that wind power plant will be expected to provide fre...
Abstract – The future power systems face several challenges; one of them is the use of high power co...
The significant presence of variable-speed wind turbines in worldwide power systems has led to plann...
Models have been developed to assess the extent that wind plant can contribute to power system frequ...
With the rapid development of wind power generation, the inertial response of wind turbines (WTs) ha...
IEEE PES 2011 General Meeting, Detroit, Michigan, USA, July 24-28, 2011As wind penetration levels on...
The increasing penetration of variable speed wind turbines in the electricity grid will result in a ...
In order to limit anthropogenic climate change as well as the dependency on fossil fuels, the wind p...
12th International Workshop on Large-Scale Integration of Wind Power into Power Systems as well as o...
2012 IEEE Power & Energy Society General Meeting. New Energy Horizons - Opportunities and Challenges...
Despite being inherently non-responsive to system frequency events, variable speed wind turbines (VS...
Abstract—Due to the differing electromechanical characteristics of modern variable speed wind turbin...
This paper provides an assessment and implementation of inertia response from variable speed wind tu...
2016 CIGRE Session, Paris, France, 21-26 August 2016Worldwide, variable-speed wind turbine and solar...
The objective of this paper is to analyze and quantify the inertia and frequency responses of wind p...
With increasing wind penetration, it is likely that wind power plant will be expected to provide fre...
Abstract – The future power systems face several challenges; one of them is the use of high power co...
The significant presence of variable-speed wind turbines in worldwide power systems has led to plann...
Models have been developed to assess the extent that wind plant can contribute to power system frequ...
With the rapid development of wind power generation, the inertial response of wind turbines (WTs) ha...