A continuous mitigation of kVAR-voltage problem of hybrid isolated power system using UPFC

Gandhar, Abhishek; Gupta, Sunil; Tiwari, Mohit; Gandhar, Shashi

doi:10.1080/02522667.2020.1721624

Cited by 3 publications

(2 citation statements)

References 8 publications

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“…It was shown that UPFC achieves a higher compensation of voltage losses as compared to STATCOM while both of the power compensation devices are able to keep the wind turbine running normally. In another work on voltage instability mitigation in a wind energy system machine, [115] proposed a hybrid isolated power system through implementation of a UPFC power compensation device. The outcome of the proposed work met its objective in terms of reactive power stabilization and was able to assist in mitigating reactive power crowding and voltage deflection.…”

Section: Control Strategies For Pq Compensation Devicementioning

confidence: 99%

Distributed Generation: A Review on Current Energy Status, Grid-Interconnected PQ Issues, and Implementation Constraints of DG in Malaysia

et al. 2020

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Electric supply is listed as one of the basic amenities of sustainable development in Malaysia. Under this key contributing factor, the sustainable development goal aims to ensure universal access to an affordable, clean, and reliable energy service. To support the generation capacity in years to come, distributed generation is conceptualized through stages upon its implementation in the power system network. However, the rapid establishment growth of distributed generation technology in Malaysia will invoke power quality problems in the current power system network. In order to prevent this, the current government is committed to embark on the development of renewable technologies with the assurance of maintaining the quality of power delivered to consumers. Therefore, this research paper will focus on the review of the energy prospect of both fossil fuel and renewable energy generation in Malaysia and other countries, followed by power quality issues and compensation device under a high renewable penetration distribution network. The issues and challenges of distributed generation are presented, with a comprehensive discussion and insightful recommendation on future work of the distributed generation. In accordance with the addressed highlights in this paper, it would serve as the criterion on upcoming revolution of distributed generation integrated along with the traditional network in Malaysia.

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Section: Control Strategies For Pq Compensation Devicementioning

confidence: 99%

Distributed Generation: A Review on Current Energy Status, Grid-Interconnected PQ Issues, and Implementation Constraints of DG in Malaysia

et al. 2020

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“…To cope with the increasing energy demand and environmental concerns around the world, productions of electricity from distributed energy sources like wind energy are gaining attention for a sustainable power production 1,2 . However, the wind‐based power systems become more complex and challenging for voltage/reactive power regulation because of the intermittent nature of wind speed especially in isolated areas 3,4 . As a result, the oscillation/disruption experienced by the isolated power system disturbances may extend to wider areas proceeding to power system instability and unreliability.…”

Section: Introductionmentioning

confidence: 99%

Bio‐inspired hybrid BFOA‐PSO algorithm‐based reactive power controller in a standalone wind‐diesel power system

Wagle

Sharma

et al. 2021

Int Trans Electr Energ Syst

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Summary With an increase in the penetration of renewable energy sources such as wind into the power systems, the operation and control of voltage/reactive power have become more complicated and challenging than ever. As a result, the reactive power imbalance between reactive power generation and demand instigates a reduction in system voltage stability. To deal with the aforesaid scenarios, automatic voltage regulator (AVR) and static synchronous compensator (STATCOM) are incorporated to curtail the voltage deviations in a standalone wind‐diesel power system. In this article, a hybrid bacterial foraging optimization algorithm‐particle swarm optimization (hBFOA‐PSO) algorithm is proposed for optimizing the PI controller parameters of AVR and STATCOM to further improve the system voltage/reactive power performance. Additionally, H∞‐loop shaping technique is designed to analyze the performance indexes (ie, robustness and stability) of the presented controller with the aim of handling the unstructured uncertainties from generation and loading situation. In order to present the efficiency of the proposed controllers, the performance of the hBFOA‐PSO controller is compared with the performance of the BFOA, PSO, and modified grey wolf optimization (MGWO)‐based PI controllers for the same wind‐diesel system. The dynamic responses of the wind‐diesel system for different disturbance cases have been investigated in the MATLAB/SIMULINK environment.

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Fruitfly optimizer with deep neural network for the detection of brain tumours using EEG signals

Sharma

Arora

Rehalia

et al. 2022

Journal of Information and Optimization Sciences

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A continuous mitigation of kVAR-voltage problem of hybrid isolated power system using UPFC

Cited by 3 publications

References 8 publications

Distributed Generation: A Review on Current Energy Status, Grid-Interconnected PQ Issues, and Implementation Constraints of DG in Malaysia

Distributed Generation: A Review on Current Energy Status, Grid-Interconnected PQ Issues, and Implementation Constraints of DG in Malaysia

Bio‐inspired hybrid BFOA‐PSO algorithm‐based reactive power controller in a standalone wind‐diesel power system

Fruitfly optimizer with deep neural network for the detection of brain tumours using EEG signals

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