This paper presents several enhancements on a mixed OPF-stochastic cascading failure model to study the impacts of renewable energy resource uncertainty on grid vulnerability. The improved quasi-steady state (QSS) cascading failure model incorporates AC power flow calculations thus allowing us to simulate voltage-related failures in the grid. The under-voltage load shedding (UVLS) relays are modeled along with a stochastic time-inverse overload relay to accurately simulate the protective system response. In addition, more realistic assumptions are considered in the modeling of wind power penetration using geographical information of grid topology and wind potential map for a given geographical area. The effectiveness of the proposed framewo...
International audienceThe purpose of this work is the analysis of the uncertainties affecting an ele...
To systematically study key factors affecting cascading failures in power systems, this paper advanc...
The primary objective of resilience engineering is to analyse and mitigate the risk of a system once...
The reliability of electric transmission systems is challenged by the recent deployment of intermitt...
A scalable and analytically tractable probabilistic model for the cascading failure dynamics in powe...
Emerging smart grids consist of tightly-coupled systems, namely a power grid and a communication sys...
Electrical power transmission networks of many developed countries are undergoing deep transformatio...
Vulnerability and robustness are major concerns for future power grids. Malicious attacks and extrem...
In this paper, a novel analytical model is proposed to predict the average transmission-capacity los...
The reliable operation of power grids during cascading failures is heavily dependent on the interdep...
We introduce a new microscopic model of the outages in transmission power grids. This model accounts...
To assess the blackout risk of power system with high penetration of renewable, the existing cascadi...
Steady state analysis cannot provide the details of how system evolves in cascading failure. Dynamic...
The paper introduces a framework for characterisation and investigation of cascading events in power...
Cascading failures present severe threats to power grid security, and thus vulnerability assessment ...
International audienceThe purpose of this work is the analysis of the uncertainties affecting an ele...
To systematically study key factors affecting cascading failures in power systems, this paper advanc...
The primary objective of resilience engineering is to analyse and mitigate the risk of a system once...
The reliability of electric transmission systems is challenged by the recent deployment of intermitt...
A scalable and analytically tractable probabilistic model for the cascading failure dynamics in powe...
Emerging smart grids consist of tightly-coupled systems, namely a power grid and a communication sys...
Electrical power transmission networks of many developed countries are undergoing deep transformatio...
Vulnerability and robustness are major concerns for future power grids. Malicious attacks and extrem...
In this paper, a novel analytical model is proposed to predict the average transmission-capacity los...
The reliable operation of power grids during cascading failures is heavily dependent on the interdep...
We introduce a new microscopic model of the outages in transmission power grids. This model accounts...
To assess the blackout risk of power system with high penetration of renewable, the existing cascadi...
Steady state analysis cannot provide the details of how system evolves in cascading failure. Dynamic...
The paper introduces a framework for characterisation and investigation of cascading events in power...
Cascading failures present severe threats to power grid security, and thus vulnerability assessment ...
International audienceThe purpose of this work is the analysis of the uncertainties affecting an ele...
To systematically study key factors affecting cascading failures in power systems, this paper advanc...
The primary objective of resilience engineering is to analyse and mitigate the risk of a system once...