An Optimal Allocation of Reactive Power Capable End-User Devices for Grid Support
Autor: | Edstan Fernandez, Syed Muhammad Nawazish Ali, Mohammad Sohrab Hasan Nizami, Vivek Sharma, Md. Jahangir Hossain, Muhammad Kashif |
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Rok vydání: | 2021 |
Předmět: |
Computer Networks and Communications
Computer science business.industry Reliability (computer networking) Photovoltaic system Cloud computing AC power Grid Computer Science Applications Scheduling (computing) Reliability engineering Control and Systems Engineering Overvoltage Resource management Electrical and Electronic Engineering business Information Systems |
Zdroj: | IEEE Systems Journal. 15:3249-3260 |
ISSN: | 2373-7816 1932-8184 |
DOI: | 10.1109/jsyst.2020.2993065 |
Popis: | The increasing penetration of photovoltaic (PV) systems in low-voltage residential feeders has elevated the need for grid support at the distribution level to prevent violations of local voltage constraints. In this article, a coordinated reactive power support (RPS) methodology is presented that utilizes the demand-side flexibilities of the end user to keep local voltage levels within allowed levels. A cloud-based architecture is implemented to optimally coordinate consumers’ reactive power capable demand-side resources such as electric vehicles, solar PV systems, flexible home appliances, etc., considering their varying characteristics, ratings, and purposes. An optimization-based two-stage device scheduling and management model is presented for the cloud server that schedules consumers’ devices in day ahead for cost minimization, and optimally allocates the required RPS in real time among the candidate devices based on priority. Two device prioritization strategies are proposed that consider the reliability of reactive power capable consumer devices and management complexity, thereby, allowing consumers to either enhance the candidate devices’ lifetime or reduce the management complexity while participating in grid support. The proposed RPS methodology is validated using simulation studies, and an experimental setup is established to verify the viability of the proposed cloud-based coordination system for RPS. Case studies indicate that the proposed method can effectively prevent overvoltage situations by using coordinated RPS from consumers’ devices while maximizing their reliability. Results also indicate that the proposed methodology is economically more viable than state-of-the-art voltage control strategies. |
Databáze: | OpenAIRE |
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