“…These controlling schemes are related to the deviation in frequency and voltage. Initially, the HPS had been erected based on a wind turbine system considering diesel generators as a backup source because the potential of the wind energy system was significant [43][44][45][46][47][48][49][50][51][52][53][54][55][56][57][58].…”
Section: Literature Review On Components Of Hpsmentioning
confidence: 99%
“…Components of HPS [3][4][5]14,[16][17][18][20][21][22][25][26][27][28][29][30][31]39,44,45,47,] RES [14,[80][81][82][83][84] SMES [20,21,45,47,52,53,57,62,63,70,73,75,76,79,83,[85][86][87][88] ESCs [5,[17][18][19][20][21]25,…”
Section: Referencesmentioning
confidence: 99%
“…Nowadays, renewable sources like wind, PV solar power, solar thermal power, geothermal, and many more are playing a vital role in supplying power to distant locations as well as mainstream areas [16,17,27,28,39,45,47,[49][50][51][52][53][54][55][56][57][58]. From all renewable energy sources, solar thermal power is exceptionally facilitating and commonly deployed.…”
Section: Solar Thermal Renewable Generating Units In Hpsmentioning
Concerned with the increasing greenhouse gases in the atmosphere due to fossil fuels, the entire world is focusing on electricity generation through renewable energy resources. The most advantageous aspect of the distributed renewable sources is to provide the electricity to remote, scattered and the deprived rural areas by developing the hybrid power system at the smaller scale where power transmission through grid extension is not viable due to some economical, technical or environmental constraints for building new transmission lines. An accurate and adequate control strategy becomes inevitable to uphold the smooth operation by restraining the frequency and voltage deviation within its limit ensuring the highest degree of reliability of hybrid power system to provide an adequate power quality. In this paper, a comprehensive review of different control strategies adopted in isolated and interconnected multi-area hybrid power systems is presented.
“…These controlling schemes are related to the deviation in frequency and voltage. Initially, the HPS had been erected based on a wind turbine system considering diesel generators as a backup source because the potential of the wind energy system was significant [43][44][45][46][47][48][49][50][51][52][53][54][55][56][57][58].…”
Section: Literature Review On Components Of Hpsmentioning
confidence: 99%
“…Components of HPS [3][4][5]14,[16][17][18][20][21][22][25][26][27][28][29][30][31]39,44,45,47,] RES [14,[80][81][82][83][84] SMES [20,21,45,47,52,53,57,62,63,70,73,75,76,79,83,[85][86][87][88] ESCs [5,[17][18][19][20][21]25,…”
Section: Referencesmentioning
confidence: 99%
“…Nowadays, renewable sources like wind, PV solar power, solar thermal power, geothermal, and many more are playing a vital role in supplying power to distant locations as well as mainstream areas [16,17,27,28,39,45,47,[49][50][51][52][53][54][55][56][57][58]. From all renewable energy sources, solar thermal power is exceptionally facilitating and commonly deployed.…”
Section: Solar Thermal Renewable Generating Units In Hpsmentioning
Concerned with the increasing greenhouse gases in the atmosphere due to fossil fuels, the entire world is focusing on electricity generation through renewable energy resources. The most advantageous aspect of the distributed renewable sources is to provide the electricity to remote, scattered and the deprived rural areas by developing the hybrid power system at the smaller scale where power transmission through grid extension is not viable due to some economical, technical or environmental constraints for building new transmission lines. An accurate and adequate control strategy becomes inevitable to uphold the smooth operation by restraining the frequency and voltage deviation within its limit ensuring the highest degree of reliability of hybrid power system to provide an adequate power quality. In this paper, a comprehensive review of different control strategies adopted in isolated and interconnected multi-area hybrid power systems is presented.
“…Indeed, it has several advantages: first and foremost, it is a non-polluting renewable energy source that helps to improve air quality and the reduction of greenhouse gas emissions. It is also a form of energy that makes use of domestic resources and so helps to energy independence and supply security, its high-power density, and a high potential for electricity generation (Soliman et al, 2021). The role of a wind turbine is to convert the kinetic energy of the wind into electrical energy.…”
Section: Introductionmentioning
confidence: 99%
“…The amount of energy recovered by variable speed wind energy conversion systems (VS-WECS) depends on the accuracy of the maximum power point tracking (MPPT) search and also on the type of generator used. The associated power conversion chains often use a PMSG (Soliman et al, 2021), (Mohammadi et al, 2019). This type of machine allows making it possible to get rid of the problem of the excitation current supply, which is difficult to manage in a conventional synchronous machine (Mohammadi et al, 2019).…”
Given the greater penetration of wind power, the impact of wind generators on grid electricity reliability imposes additional requirements. One of the most common technologies in wind power generating schemes is the permanent magnet synchronous generator (PMSG) converter. However, the controller calculation is difficult due to the nonlinear dynamical and time-varying characteristics of this type of conversion system. This study develops a unique intelligent controller approach based on the passivity notion that tracks velocity and maintains it functioning at the optimum torque. To address the robustness issues encountered by traditional generator-side converter (MSC) strategies such as proportional-integral (PI), this suggested scheme integrates a passivity-based procedure with a fuzzy logic control (FLC) methodology for a PMSG-based wind power converter. The suggested controller is distinguished by the fact that the nonlinear features are compensated in a damped manner rather than canceled. To achieve the required dynamic, the fuzzy controller is used, which ensures quick convergence and global stability of the closed loop system. The development of the maximum power collected, the lowered fixed gains, and the real-time application of the control method are the primary contributions and novelties. The primary objectives of this project are to manage DC voltage and attain adequate reactive power levels in order to provide dependable and efficient electricity to the grid. The proposed scheme is being used to regulate the MSC, while the grid-side employs a traditional proportional-integral method. The efficiency of the suggested technique is investigated numerically using MATLAB/Simulink software. Furthermore, the processor-in-the-loop (PIL) tests are carried out to demonstrate that the suggested regulator is practically implementable.
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