Dynamic demand response (DR) is an integral part of ancillary services markets. The integration of dynamic DR control loop into the conventional load frequency control (LFC) model is presented by the authors in [1]. Extensive analytical analyses were carried out on single-area power system in previous study. In this paper, the idea is expanded to a general multi-area interconnected power system. Then, impacts of the proposed LFC-DR on the dynamic performance of the multi-area power systems in different conditions are simulated. Simulation results show a superior performance of the LFC-DR model for different conditions and power system models
Abstract: A decentralized robust H control strategy for load frequency control of interconnected pow...
a b s t r a c t In recent years, most of the countries around the world have gone through the power ...
Power systems are the most complex systems that have been created by men in history. To operate such...
Demand response (DR) has proved to be an inevitable part of the future grid. Much research works hav...
It is well known that Load Frequency Control (LFC) model plays a vital role in electric power system...
This article studies the effect of dynamic demand response (DR) control on stability delay margins o...
The modern electric power system is foreseen to have increased penetration of controllable loads und...
10th International Conference on Electrical and Electronics Engineering, ELECO 2017 -- 29 November 2...
This paper addresses a modified dynamical model to analysis of load-frequency control (LFC) in a bil...
This review paper reflects a detailed and up to date review on Load Frequency Control (LFC) in tradi...
A novel design of a robust decentralized load frequency controller (LFC) is proposed for an inter-co...
Multi-area load frequency control (LFC) selects and controls a few generators in each area of the po...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Due to the boost of power systems interconnection as well as penetration of renewable energy (RE) po...
In a unified power system the Load Frequency Control (LFC) is taken for review looking at all asp...
Abstract: A decentralized robust H control strategy for load frequency control of interconnected pow...
a b s t r a c t In recent years, most of the countries around the world have gone through the power ...
Power systems are the most complex systems that have been created by men in history. To operate such...
Demand response (DR) has proved to be an inevitable part of the future grid. Much research works hav...
It is well known that Load Frequency Control (LFC) model plays a vital role in electric power system...
This article studies the effect of dynamic demand response (DR) control on stability delay margins o...
The modern electric power system is foreseen to have increased penetration of controllable loads und...
10th International Conference on Electrical and Electronics Engineering, ELECO 2017 -- 29 November 2...
This paper addresses a modified dynamical model to analysis of load-frequency control (LFC) in a bil...
This review paper reflects a detailed and up to date review on Load Frequency Control (LFC) in tradi...
A novel design of a robust decentralized load frequency controller (LFC) is proposed for an inter-co...
Multi-area load frequency control (LFC) selects and controls a few generators in each area of the po...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Due to the boost of power systems interconnection as well as penetration of renewable energy (RE) po...
In a unified power system the Load Frequency Control (LFC) is taken for review looking at all asp...
Abstract: A decentralized robust H control strategy for load frequency control of interconnected pow...
a b s t r a c t In recent years, most of the countries around the world have gone through the power ...
Power systems are the most complex systems that have been created by men in history. To operate such...