Power Generation Using Permanent MagnetSynchronous Generator (PMSG) BasedVariable Speed Wind Energy ConversionSystem (WECS): An Overview

Jain, Anjana; Shankar, Shobha; Vanitha, V.

doi:10.13052/jge1904-4720.742

Cited by 41 publications

(10 citation statements)

References 60 publications

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“…Comparison of results based on Syahputra's research [7], with a model that has been designed with a 50-ohm load, is as follows: Based on Figure 7 above, from the three circuits, the 3000-Watt Wind Turbine design model has characteristics that are almost close to the Syahputra [10], circuit with 3000-Watt power. After that the 400-Watt Wind Turbine circuit can be assembled with the characteristics of results power which different.…”

Section: Network Verificationmentioning

confidence: 97%

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Modified Maximum Power Point Tracking on Models of a 400 Wp Wind Power Plant

Hendrawati¹

2022

JAICT

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Many papers discuss the Maximum Power Point Tracking (MPPT) control simulation "Perturb and Observe" (P&O), while its realization and practice in control systems remains a major challenge. The purpose of this research to study experimentally by optimizing wind turbines PMSG connected to DC-DC converter (Boost) and resistive load. The proposed MPPT P&O control algorithm modification will be analyzed by comparing with the control method without MPPT P&O at various wind speeds. The 400 WP wind power generation system uses a boost converter simulated in MATLAB/Simulink to analyze the performance of the proposed control algorithm. Modified MPPT P&O control Wind Turbine system with 3 m/s – 7 m/s speed variation at 20 ohm to 60 ohm load, wind turbine power has been successfully improved by an average of 11.868% compared to Wind Turbines that are not installed MPPT P&O. Therefore, MPPT P&O is very suitable to be applied at low average wind speeds.

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Section: Network Verificationmentioning

confidence: 97%

“…Dwiana Hendrawati 1 , Mulyono 2 , Wahyono 3 , Suwarti 4 , Nur Fatowil Aulia 5 , Ariyanto 6 and Brainvendra Widi Dionova 7…”

Section: Modified Maximum Power Point Tracking On Models Of a 400 Wp ...mentioning

confidence: 99%

Modified Maximum Power Point Tracking on Models of a 400 Wp Wind Power Plant

Hendrawati¹

2022

JAICT

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“…7 The DARPC strategy was designed to control the Ps and Qs of the permanent magnet synchronous generator. 8 Recently, several DARPC strategies law based on a DFIG are presented in literature such as neural DARPC strategy, 9 fuzzy DARPC control, 10 neurofuzzy DARPC strategy, 11 sliding mode-DARPC control, 12 DARPC strategy with classical space vector modulation (CSVM), 13 DARPC control with supertwisting sliding mode (STSM) controllers, 14 DARPC strategy with neural STSM controllers, 15 DARPC strategy based on genetic algorithm (GA), 16 DARPC strategy based on backstepping controller, 17 DARPC strategy based on terminal synergetic controller, 18 DARPC strategy based on third-order sliding mode controller, 19 DARPC strategy based on sliding mode controller (SMC), 20 and the DARPC control with neuro-fuzzy STSM controllers. 21 These proposed strategies to improve the performance of DARPC are multiple and differ from each other in terms of complexity, simplicity, and ease of implementation.…”

Section: Introductionmentioning

confidence: 99%

A new integral-synergetic controller for direct reactive and active powers control of a dual-rotor wind system

Benbouhenni,

Bizon,

Thounthong

et al. 2023

Measurement and Control

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This paper proposes a new integral-synergetic controller for direct reactive and active powers control (DARPC) for a grid-connected doubly-fed induction generators (DFIGs) in dual-rotor wind power generation applications. The proposed DARPC strategy employs integral-synergetic control (ISC) to regulate the reactive and active powers of the DFIG-based variable speed dual-rotor wind turbine systems. The proposed ISC technique is the contribution of this work, where this strategy is a development of synergetic control and simplicity and robustness are the most prominent features. The main advantages of the proposed ISC-DARPC technique are ease of implement, good dynamic response, simple structure, and constant switching frequency operation. The Matlab software is used to validate the design of the ISC-DARPC technique, and the obtained results are compared with traditional DARPC. In addition, the ISC-DARPC technique is able to fully minimize ripples in both torque and active power during grid voltage imbalance or parametric changes on the DFIG.

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“…The WECS applications are increasingly popular with Dou Induction Generator (DFIG), which demonstrated an interesting performance [6 main disadvantages of these type of generator are the complexity of power con high cost [8,9]. The Permanent Magnet Synchronous Generator (PMSG) have int performance in wind applications [10,11], but their cost is still very high and dif manufacture [12,13]. Therefore, the voltage regulation performance of PMSG is under harsh operating conditions.…”

Section: Introductionmentioning

confidence: 99%

Integration of Switched Reluctance Generator in a Wind Energy Conversion System: An Overview of the State of the Art and Challenges

et al. 2022

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This paper presents a technical overview for Switched Reluctance Generators (SRG) in Wind Energy Conversion System (WECS) applications. Several topics are discussed, such as the main structures and topologies for SRG converters in WECS, and the optimization control methods to improve the operational efficiency of SRGs in wind power generation systems. A comprehensive overview including the main characteristics of each SRG converter topology and control techniques were discussed. The analysis presented can also serve as a foundation for more advanced versions of SRG control techniques, providing a necessary basis to spur more and, above all, motivate the younger researchers to study magnetless electric machines, and pave the way for higher growth of wind generators based on SRGs.

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Power Generation Using Permanent MagnetSynchronous Generator (PMSG) BasedVariable Speed Wind Energy ConversionSystem (WECS): An Overview

Cited by 41 publications

References 60 publications

Modified Maximum Power Point Tracking on Models of a 400 Wp Wind Power Plant

Modified Maximum Power Point Tracking on Models of a 400 Wp Wind Power Plant

A new integral-synergetic controller for direct reactive and active powers control of a dual-rotor wind system

Integration of Switched Reluctance Generator in a Wind Energy Conversion System: An Overview of the State of the Art and Challenges

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