Abstract
The smart grid concept enables demand-side management, including electric vehicles (EVs). Thus way, some ancillary services can be provided in order to improve the power system stability, reliability, and security. The high penetration level of renewable energy resources causes some problems to independent system operators, such as lack of primary reserve and active power balance problems. Nowadays, many countries are encouraging the use of EVs which provide a good chance to utilize them as a virtual power plant (VPP) in order to contribute to frequency event. This paper proposes a new control method to use EV as VPP for providing primary reserve in smart grids. The primary frequency reserve helps the power system operator to intercept the frequency decline and to improve the frequency response of the whole system. The proposed method calculates the electric vehicles’ primary reserve based on EVs’ information, such as the state of charge (SOC), the arriving time and the vehicle’s departure time. The effectiveness of the proposed scheme is verified by several simulation scenarios on a real-world modern power system with different generating units, such as conventional power plants, renewable energy resources, and electric vehicles.
Highlights
Power systems are the power of economic advancement and human intelligence that need to be well-operated and secured
This paper proposes a new technique for the participation of electric vehicles (EVs) in the primary frequency response improvement in power systems
The proposed model has several advantages including (i) its ability for assessing the frequency security in power systems, (ii) its capability to be used as a base for determining the required reserve in modern power systems, and (iii) its ability for online monitoring the frequency stability of modern power systems
Summary
Power systems are the power of economic advancement and human intelligence that need to be well-operated and secured. In recent years, new studies started focusing on providing the active power reserve from the demand-side using demand response programs and electric vehicles contributions to power system frequency control methods. Electric vehicles (EVs) are another type of demand-side appliances that can contribute to providing primary and secondary reserves by well-controlling their charging power [19]. An aggregation-based dynamic model of plug-in EVs for primary frequency control in Spanish power system has been suggested in [22]. In [30], a method of frequency control by plug-in hybrid electric vehicle as a VPP has been suggested for future power systems. This paper proposes a new technique for the participation of EVs in the primary frequency response improvement in power systems.
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