With the fast growth of renewable energy generation, the power system faces the challenge of low inertia. Lower system inertia makes it more challenging to keep the frequency stable, and the conventional frequency response mechanism is not capable of ensuring frequency within the limit. In this paper, a new frequency response mechanism is proposed to help to improve the frequency performance, where electric vehicles (EV) are used as energy storage, and they will cooperate with existing primary frequency response (PFR) to form an EV+X storage supporting power system frequency. This approach is proposed based on rigorous mathematical derivation, where the relationship between frequency and active power is quantitively analysed. To validate th...
The displacement of conventional generation in an island power system by inertia-less generation suc...
With the increasing use of renewable energy in the Great Britain (GB) power system, the role of elec...
The increase in electric vehicle usage around the world may lead to many challenges on the electric ...
In power systems, high renewable energy penetration generally results in conventional synchronous ge...
The penetration of Renewable Energy (RE) sources (e.g., solar, wind) into the power system occurs vi...
The smart grid concept enables demand-side management, including electric vehicles (EVs). Thus way, ...
The growth of vehicle electrification is driven by the desire to reduce environmental pollution, and...
The project is an investigation on the use of electric vehicle (EV) batteries to stabilize network f...
Based on conventional car driving patterns, it has been recognized that typically a car remains stat...
Declining levels of rotational inertia in modern power systems prompt transmission system operators ...
Enhanced frequency inertial response has become an essential requirement requested by many grid tran...
The rise of Renewable Energy Sources (RES) such as wind and solar power, creates new challenges for ...
System inertia reduction, driven by the integration of renewables, imposes significant challenges on...
The displacement of conventional generation in an island power system by inertia-less generation suc...
With the increasing use of renewable energy in the Great Britain (GB) power system, the role of elec...
The increase in electric vehicle usage around the world may lead to many challenges on the electric ...
In power systems, high renewable energy penetration generally results in conventional synchronous ge...
The penetration of Renewable Energy (RE) sources (e.g., solar, wind) into the power system occurs vi...
The smart grid concept enables demand-side management, including electric vehicles (EVs). Thus way, ...
The growth of vehicle electrification is driven by the desire to reduce environmental pollution, and...
The project is an investigation on the use of electric vehicle (EV) batteries to stabilize network f...
Based on conventional car driving patterns, it has been recognized that typically a car remains stat...
Declining levels of rotational inertia in modern power systems prompt transmission system operators ...
Enhanced frequency inertial response has become an essential requirement requested by many grid tran...
The rise of Renewable Energy Sources (RES) such as wind and solar power, creates new challenges for ...
System inertia reduction, driven by the integration of renewables, imposes significant challenges on...
The displacement of conventional generation in an island power system by inertia-less generation suc...
With the increasing use of renewable energy in the Great Britain (GB) power system, the role of elec...
The increase in electric vehicle usage around the world may lead to many challenges on the electric ...