A new series‐parallel active compensator for DC microgrids based on
Compensating and reducing these voltage and current distortions requires efficient and cost-effective solutions. This article proposes two new topologies of DC series-parallel active
Reactive Power Compensation in Multi-microgrid Environment
A multi-microgrid is developed using MATLAB and test-ed with and without DVR for LLLG, LLG and LG fault conditions by connecting a non-linear load and results are presented in this paper.
Enhancing voltage control and regulation in smart micro-grids through
By dynamically adjusting reactive power and improving voltage profiles, the proposed solution supports both stable grid operations and cost-effective EV charging.
A review of reactive power compensation techniques in microgrids
Subsequently, the challenges and power quality issues faced in the microgrid are observed and succeeded by a review of compensation methods against these concerns using various control
A Reactive Power-Voltage Control Strategy of an AC Microgrid
Therefore, subjecting to the issue that DG units rationally shares reactive power, this paper proposes a reactive power-voltage control strategy for a microgrid based on adaptive virtual impedance.
Optimal Placement and Sizing of Reactive Power Compensation
To address voltage stability challenges in power grids with high penetration of distributed generation (DG), this paper proposes an optimal configuration method for reactive power
Reactive Power Compensation and Control Strategies for Microgrids:
This paper reviews key reactive power compensation technologies and control strategies for microgrids, including static and dynamic devices (e.g., SVC, SVG) and coordinated control approaches
Reactive Power Compensation in Microgrids:A Survey Paper
This paper is a review of different reactive power compensation methods in microgrid in terms of control methods, algorithms and devices.
Reactive power control in islanded microgrids with ideal droop
This work, relative with previous research, focuses on reactive power planning for microgrids with unconventional reactive power dynamics, which results in microgrids operating in an
Adaptive Voltage Compensation and Recovery Strategy for Improving
Then, an adaptive voltage compensation module is introduced in the improved droop control, so as to eliminate the deviation between the system output voltages and achieve accurate equalization of