Thermal Analysis and Cooling Strategies of High-Efficiency Three-Phase Squirrel-Cage Induction Motors—A Review

Konda, Yashwanth Reddy; Ponnaganti, Vamsi Krishna; Reddy, Peram Venkata Sivarami; Singh, R. Raja; Mercorelli, Paolo; Gundabattini, Edison; Solomon, Darius Gnanaraj

doi:10.3390/computation12010006

Cited by 3 publications

(1 citation statement)

References 59 publications

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“…This international cooperative effort aims to not only mitigate the impacts of climate change but also stabilize the global climate system. As a direct consequence of these strengthened regulations, there has been a surge in research activities focusing on electrification systems in the industrial sector [1][2][3]. This research is pivotal in transitioning towards more sustainable and energy-efficient industrial practices.…”

Section: Introductionmentioning

confidence: 99%

Simplified V/f Control Algorithm for Reduction of Current Fluctuations in Variable-Speed Operation of Induction Motors

Son,

Kim

2024

Energies

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This paper introduces a straightforward control strategy aimed at the reduction of current fluctuations within the low-frequency domain of open-loop V/f control in induction motor drives. Traditional control techniques necessitate the addition of a current compensator based on motor parameters and the use of digital filters such as band-pass or high-pass filters. These methods, however, rely on precise motor parameters and involve complex filter design and implementation. The proposed control is capable of suppressing current fluctuations without controlling the slip of the induction motor. The proposed control strategy generates the forced rotation angle and command input voltage using the V/f block and outputs the d-axis voltage using a proportional integral controller to keep the d-axis current constant at zero. The difference between the command input voltage and the d-axis voltage is applied as the q-axis voltage and then applied through SVPWM. In order to verify the effectiveness of the proposed control, the proposed control is implemented and analyzed using power simulation based on the results of the analysis of the causes of current fluctuations in the induction motor. Finally, the effect of suppressing current fluctuations of the induction motor is verified through experimental results. In the 10~19 Hz range, where the conventional V/f control method resulted in current fluctuation rates exceeding 10% and peaking at 113.3% at 13 Hz, the proposed method suppressed the fluctuation rate to below 8.6% across all frequencies. This paper validates the effectiveness of the proposed control strategy through these results.

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Section: Introductionmentioning

confidence: 99%

Simplified V/f Control Algorithm for Reduction of Current Fluctuations in Variable-Speed Operation of Induction Motors

Son,

Kim

2024

Energies

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Improvement of Induction Motors Reliability in Fertilizers Plants Using IOT and Enterprise Resource Planning

Toulan,

Nafeh,

Arafa

2024

2024 International Telecommunications Conference (ITC-Egypt)

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Modeling of Induction Motor Direct Starting with and without Considering Current Displacement in Slot

Konuhova

2024

Applied Sciences

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This article presents a mathematical model of three-phase induction motor (IM) with a squirrel cage rotor and investigates its starting modes. Specifically, two scenarios are considered: direct starting of an IM and direct starting considering the current displacement effect in the rotor slots. Analyzing the starting modes of an IM without the use of automatic control systems is crucial for ensuring reliable, efficient, and safe operation of equipment across various industrial and commercial sectors. Understanding and accounting for the processes occurring during the starting mode of an IM allows for minimizing risks, enhancing energy efficiency, and reducing operational costs. This article details the mathematical modeling methods used for analyzing these starting modes and the results obtained from the modeling. These results were compared with data obtained experimentally, allowing for the assessment of the accuracy and reliability of the proposed model. The conducted research highlights the importance of considering current displacement in the rotor slots for accurate modeling and analysis of induction motor starting modes, particularly in capturing the differences in the amplitudes of the starting current and the faster transition to steady-state operation. Conclusions drawn from the comparison of modeling and experimental data provide valuable insights for the further development of control and operation methods for induction motors.

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Thermal Analysis and Cooling Strategies of High-Efficiency Three-Phase Squirrel-Cage Induction Motors—A Review

Cited by 3 publications

References 59 publications

Simplified V/f Control Algorithm for Reduction of Current Fluctuations in Variable-Speed Operation of Induction Motors

Simplified V/f Control Algorithm for Reduction of Current Fluctuations in Variable-Speed Operation of Induction Motors

Improvement of Induction Motors Reliability in Fertilizers Plants Using IOT and Enterprise Resource Planning

Modeling of Induction Motor Direct Starting with and without Considering Current Displacement in Slot

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