Add to ORKGThis chapter discusses the resiliency aspect of electric power distribution systems considering the role of distributed generation. A restoration tool is developed that can emulate the recovery path of the distribution system after a contingency situation, then engineering resiliency assessment framework is applied to (semi)-quantitatively measure the dimensions of resiliency. The proposed procedure is implemented on a test system to demonstrate the key factors affecting the resiliency of a distribution system, including distributed generation
Power distribution systems are essential and crucial infrastructures for the development and mainten...
Smart distributed power systems are an important part of the energy shift that is currently taking p...
The frequent occurrence of natural disasters and malicious attacks has exerted unprecedented disturb...
Various examples of methods and systems are provided for power distribution analysis and control. Dy...
In recent years, technology in Distributed Generators has advanced, resulting in higher reliability ...
Recently, resilience studies have become an indispensable tool for sustainable operation of energy i...
This paper presents a framework to systematically measure and assess power grids’ resilience with a ...
In recent years, technology in Distributed Generators has advanced, resulting in higher reliability ...
This paper presents a framework to systematically measure and assess power grids’ resilience with a ...
This paper summarizes the report prepared by an IEEE PES Task Force. Resilience is a fairly new tech...
International audienceThe introduction of pervasive telecommunication devices, in the scope of smart...
Smart distributed power systems are an important part of the energy shift that is currently taking ...
The paper provides, as a first step, a critical, although not-exhaustive, review of the steps requir...
A hybrid model is used for quantification of three resilience metrics: robustness, rapidity and resi...
Power distribution systems are essential and crucial infrastructures for the development and mainten...
Power distribution systems are essential and crucial infrastructures for the development and mainten...
Smart distributed power systems are an important part of the energy shift that is currently taking p...
The frequent occurrence of natural disasters and malicious attacks has exerted unprecedented disturb...
Various examples of methods and systems are provided for power distribution analysis and control. Dy...
In recent years, technology in Distributed Generators has advanced, resulting in higher reliability ...
Recently, resilience studies have become an indispensable tool for sustainable operation of energy i...
This paper presents a framework to systematically measure and assess power grids’ resilience with a ...
In recent years, technology in Distributed Generators has advanced, resulting in higher reliability ...
This paper presents a framework to systematically measure and assess power grids’ resilience with a ...
This paper summarizes the report prepared by an IEEE PES Task Force. Resilience is a fairly new tech...
International audienceThe introduction of pervasive telecommunication devices, in the scope of smart...
Smart distributed power systems are an important part of the energy shift that is currently taking ...
The paper provides, as a first step, a critical, although not-exhaustive, review of the steps requir...
A hybrid model is used for quantification of three resilience metrics: robustness, rapidity and resi...
Power distribution systems are essential and crucial infrastructures for the development and mainten...
Power distribution systems are essential and crucial infrastructures for the development and mainten...
Smart distributed power systems are an important part of the energy shift that is currently taking p...
The frequent occurrence of natural disasters and malicious attacks has exerted unprecedented disturb...