Active Electrical Distribution Network. Группа авторов
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Название: Active Electrical Distribution Network

Автор: Группа авторов

Издательство: John Wiley & Sons Limited

Жанр: Физика

Серия:

isbn: 9781119599579

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СКАЧАТЬ option/answer, along with an advantage of reduced carbon emissions [1]. Battery energy storage systems (BESSs) have been proved to be an efficient emerging technology for short-term power storage for power utilization for mitigation of various power quality (PQ) disturbances, stability, reliability, and protection [2–5].

      Apart from all the control algorithms, as mentioned above, indirect current control theory (ICCT) has the additional ability for fast regulation of the battery charging level and distributed system stability for transient conditions. Also, the proposed control algorithm provides a constant DC link voltage with fewer fluctuations.

      This chapter aims to design an ICCT controlled DSTATCOM-BESS configuration for power conditioning in a distribution system with a balanced and unbalanced linear, nonlinear, and induction motor load. This detailed analysis helps beginners in selecting the type of load for the specific BESS-based configuration. The basic configuration of ICCT controlled DSTATCOM-BESS system is illustrated in Figure 4.1.

      4.2 System Configuration of D-STATCOM with BESS

       Three-phase VSC: The VSC is the core component of the D-STATCOM. During an abnormal condition, the VSC generates compensating current to support the voltage at the PCC under load unbalancing and provides reactive power compensation during a nonlinear load connection.

       Energy storage: A Conventional STATCOM has only a DC-link capacitor for supporting the reactive power. However, the requirement for active and reactive power at a coupling point is frequent, while an unbalanced nonlinear load is connected. Hence, the DSTATCOM-BESS configuration is introduced for maintaining the DC-link voltage.

       Filter: A small rating of the capacitive filter is introduced at the PCC for mitigating the ripples from the signals.

       Controller: The proposed ICCT control algorithm estimates the gating signals for the accurate output voltage of the DSTATCOM-BESS. Also, the proposed algorithm has proved to be the best-suited control algorithm for power quality mitigation applications.

      Figure 4.2 System scheme of D-STATCOM with BESS.

      4.3 BESS Operation and Its Control

      The proposed ICCT-controlled DSTATCOM-BESS system under current controlled operation is presented in Figure 4.3.