Simplex Search Method Driven Design for Transient Stability Enhancement in Wind Energy Integrated Power System Using Multi-Band PSS4C

Alsakati, Ahmad Adel; Vaithilingam, Chockalingam Aravind; Alnasseir, Jamal; Jagadeeshwaran, Arthanari

doi:10.1109/access.2021.3085976

Cited by 17 publications

(5 citation statements)

References 46 publications

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“…Therefore, wind energy systems are integrated into the power grid system. The stability of the power grid system can be affected by the integration of the wind energy system [57][58][59]. Wind energy generation is achieved through a wind energy conversion system (WECS), the four categories of generators used for variable wind speed conversion in wind energy systems are electrically excited synchronous generators (EESG), squirrel-cage induction generators (SCIG), permanent magnet synchronous generators (PMSG), and doubly fed induction generators (DFIG) [60].…”

Section: Windmentioning

confidence: 99%

Solar, Wind and Their Hybridization Integration for Multi-Machine Power System Oscillation Controllers Optimization: A Review

et al. 2022

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Massive growth in global electrical energy demand has necessitated a genuine exploration and integration of solar and wind energy into the electrical power mix. This incorporation goes a long way in improving the cumulative generated power capacity of the power system. However, wind and solar photovoltaic (PV) are intermittent in nature, making the provisioning of a good maximum power tracking (MPPT) scheme necessary. Furthermore, the integration is characterized by synchronization challenges and introduces various modes of power system oscillations as it is converter-driven. This greatly affects the overall stability of the integrated power mix. Consequently, various technological models have been designed to address these challenges ranging from MPPT schemes, phase-lock loop (PLL), virtual synchronous generator (VSG), power system stabilizers (PSS), flexible AC transmission system (FACTS), coordinated control and artificial intelligence (AI). In this work, a multi-machine power system model is reviewed for integration stability studies. Various technical solutions associated with the integration are also reviewed. MPPT, PLL, VSG, PSS, FACTS, coordinated control, and various optimization technique schemes used for damping controller design are discussed.

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Section: Windmentioning

confidence: 99%

Solar, Wind and Their Hybridization Integration for Multi-Machine Power System Oscillation Controllers Optimization: A Review

et al. 2022

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“…To minimize the opposing influence of stricture disparity in sensorless speed control of a PMSM, the multiple stricture assessment by means of MRAS has been presented [17]. The modelling and simulation of a novel brain emotional learning and fuzzy-based intelligent controller (BELFBIC) for 3 phase induction motor V/f speed control was proposed [18], and it has been tested [19,20]. Lately, the authors have carried out a study on a sensorless T-source inverter-based PMSM drive incorporating the PI controller along with a technique to handle the time-altering strictures [21].…”

Section: Introductionmentioning

confidence: 99%

A Sensor-less Surface Mounted PMSM for Electronic Speed Control in Multilevel Inverter

Kumar¹,

Jagadeeshwaran²

2023

Intelligent Automation &Amp; Soft Computing

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Recent advancements in power electronics technology evolves inverter fed electric motors. Speed signals and rotor position are essential for controlling an electric motor accurately. In this paper, the sensorless speed control of surfacemounted permanent magnet synchronous motor (SPMSM) has been attempted. SPMSM wants a digital inverter for its precise working. Hence, this study incorporates fifteen level inverter to the SPMSM. A sliding mode observer (SMO) based sensorless speed control scheme is projected to determine rotor spot and speed of the multilevel inverter (MLI) fed SPMSM. MLI has been operated using a multi carrier pulse width modulation (MCPWM) strategy for generation of fifteen level voltages. The simulation works are executed with MATLAB/SIMU-LINK software. The steadiness and the heftiness of the projected model have been investigated under no loaded and loaded situations of SPMSM. Furthermore, the projected method can be adapted for electric vehicles.

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“…Double-Fed Induction Generator (DFIG) installation, on the other hand, resulted in an increase in stability. In previous research works, the transient stability of an electrical network integrated with a DFIG system was investigated in several works [3,4].…”

Section: Introductionmentioning

confidence: 99%

Angular Stability Enhancement of Grid Integrated Wind Energy Using PSO to Optimize PSS

Al-Hinai

Vaithilingam

Alsakati

et al. 2023

J. Phys.: Conf. Ser.

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The majority of nations are making efforts to protect our planet by reducing emissions caused by the combustion of fossil fuels to create energy and increasing the production of green power from renewable energy sources. Wind energy is one of the renewable energy sources that is the least destructive to the environment and an efficient approach to reducing carbon emissions. Wind power is also one of the renewable energy sources that are the most cost-effective. However, even though wind energy has been employed for quite some time, there are still some challenges that this form of renewable energy must overcome, such as maintaining the stability of the power grid. The primary objective of this research is to enhance the transient stability of the power system by utilizing an optimized power system stabilizer (PSS) that has been improved. The purpose of this study is to investigate the effect that wind power has on the reliability of power systems that are outfitted with PSS and also to optimize the parameters of the PSS to increase the network’s reliability in two different domains. While PSS with the ST1A excitation system is utilized to reduce the transient period and peak value, oscillations of the generator’s speed deviation can be dampened. Through the management of the relative power angle stability of the network, the major objective of PSS is to enhance the performance of the system.

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Simplex Search Method Driven Design for Transient Stability Enhancement in Wind Energy Integrated Power System Using Multi-Band PSS4C

Cited by 17 publications

References 46 publications

Solar, Wind and Their Hybridization Integration for Multi-Machine Power System Oscillation Controllers Optimization: A Review

Solar, Wind and Their Hybridization Integration for Multi-Machine Power System Oscillation Controllers Optimization: A Review

A Sensor-less Surface Mounted PMSM for Electronic Speed Control in Multilevel Inverter

Angular Stability Enhancement of Grid Integrated Wind Energy Using PSO to Optimize PSS

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