Compared with the above compensators, the dynamic capacitor (D-CAP) is a simple, reliable, and economical solution without bulky electrolytic capacitors, which is
AI Customer ServiceAbstract—Dynamic voltage and frequency scaling (DVFS) is a powerful technique to reduce power consumption in a chip multiprocessor (CMP). To support DVFS in the multicore power
AI Customer ServiceThis paper proposes a dynamic capacitor (D-CAP) based on the family of inverter-less active filters that is able to provide a dynamically controllable capacitance with active harmonic
AI Customer ServiceConventional approaches for placement of capacitors often overlook the dynamic loading conditions experienced by distribution networks, leading to suboptimal results. To address this
AI Customer ServiceSimultaneous optimal sitting and sizing of distributed generators and shunt capacitors has been developed for RDN to accomplish the benefits of reduction in power loss
AI Customer ServiceAbstractThis study provides an overview of distributed generation (DG) and shunt capacitor banks (SCB) integration in radial distribution networks (RDN). The integration
AI Customer ServiceUltra Capacitors are most suitable for short duration of energy requirements i.e. for compensation of sags and swells. A buck-boost converterhas been used for integrating
AI Customer ServiceLuciano Baresi, Carlo Ghezzi, Xiaoxing Ma, and Valerio Panzica La Manna, "Efficient Dynamic Updates of Distributed Components through Version Consistency", IEEE Transactions on
AI Customer ServiceIn this paper a multi-objective framework is presented for DFR along with capacitor allocation problem over multiple time intervals as dynamic DFR considering
AI Customer ServiceAbstract In order to solve the coordinated optimization problem of distributed generation (DG), on‐load tap changer (OLTC) and capacitor banks, a dynamic reactive power
AI Customer ServiceThus, this article reveals the influence of integrating distributed decoupling capacitors in power modules on current sharing mechanism. The key parameters for dynamic and static current
AI Customer ServiceAbstract—Dynamic voltage and frequency scaling (DVFS) is a powerful technique to reduce power consumption in a chip multiprocessor. To support DVFS in the multicore power delivery
AI Customer ServiceAs described in Sect.13.2, a system of distributed on-chip decoupling capacitors is an efficient solution for providing the required on-chip decoupling capacitance based on the maximum
AI Customer ServiceBy reconfiguring and allocating capacitors and distributed generation resources during these periods, the voltage profile is improved and losses are reduced. S. Lei, P. Ju,
AI Customer ServiceThis paper proposes a two-stage procedure to enhance the distribution system performance by determining the optimal sizes and locations of distributed generations (DGs)
AI Customer ServiceA novel method for dynamic distribution network reconfiguration is presented in this study, which utilizes capacitors and distributed generation resources simultaneously. This method divides
AI Customer ServiceHowever, among many influential factors, proper distributed generation (DGs) and capacitor placement during the planning stage are vital in bringing efficient power handling
AI Customer ServiceSimultaneous optimal sitting and sizing of distributed generators and shunt capacitors has been developed for RDN to accomplish the benefits of reduction in power loss
AI Customer ServiceThis paper proposes a coordinated optimal allocation method for distributed generation, capacitor banks and soft open points in active distribution networks. Time
AI Customer ServiceThis paper proposes a two-stage procedure to enhance the distribution system performance by determining the optimal sizes and locations of distributed generations (DGs)
AI Customer ServiceThis paper proposes a coordinated optimal allocation method for distributed generation, capacitor banks and soft open points in active distribution networks. Time
AI Customer ServiceDynamic Power Factor Correction in Industrial Systems: An Automated Capacitor Bank Control Approach The advent of renewable energy resources and distributed energy systems herald a new set of
AI Customer ServiceThis paper proposes a dynamic capacitor (D-CAP) based on the family of inverter-less active filters that is able to provide a dynamically controllable capacitance with active harmonic filtering integrated into the same unit. This new device is seen to be compact, and is likely to be cost competitive against simple switched shunt capacitors.
This distributed capacitance (Fig. 1) isa multiplicity of small capacitances existing between adjacent turns and from anyone turn to all the others, as well as to a shield if one is used, and to a ground if one exists in the vicinity of the choke when it is installed in the equipment.
These plants, in order to avoid very costly penalties, have traditionally utilized switchable shunt capacitor banks with detuning reactors for power factor correction, along with a separate active harmonic filter in cases where harmonic currents are an issue as well.
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