Hind Chit Dirani scite author profile

Φ Abstract --This paper presents a numerical model for computing electromagnetic forces in an existing large hydro generator at Hydro-Québec. Due to the high mass and low rotational speed, hydro generators present static, dynamic or combined eccentricities resulting in unbalanced magnetic pull in the air gap and unbalanced stator currents caused by the variation of the magnetic flux density distribution. The model uses advanced 2-D numerical finite-element analysis to compute the electromagnetic forces based on Maxwell stress tensor and the obtained results were used later as inputs to study the dynamic behavior of hydro power turbine shaft. The results obtained for electromagnetic forces, damper bar currents and circuit currents due to any magnetic unbalance are presented and discussed in detail.

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Impact of Real Air-Gap Nonuniformity on the Electromagnetic Forces of a Large Hydro-Generator

Dirani

Merkhouf

Giroux

et al. 2018

IEEE Trans. Ind. Electron.

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Free vibration analysis of a large hydroelectric generator and computation of radial electromagnetic exciting forces

Dirani

Cupillard

Merkhouf

et al. 2015

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Impact of the current and the temperature variation on the Ni-Cd battery functioning

Dirani

Semaan

Moubayed

2013

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Hind Chit Dirani

Rotor Interturn Short Circuit Impact on Large Hydrogenerator Magnetic Quantities

Study of the impact of eccentricity in large synchronous generator with finite elements

Impact of Real Air-Gap Nonuniformity on the Electromagnetic Forces of a Large Hydro-Generator

Free vibration analysis of a large hydroelectric generator and computation of radial electromagnetic exciting forces

Impact of the current and the temperature variation on the Ni-Cd battery functioning

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