Sana Jelassi scite author profile

Sana Jelassi

4Publications

43Citation Statements Received

47Citation Statements Given

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Affiliations

ECAM-EPMI, Artois University, École Supérieure d'Ingénieurs en Génie Électrique

Publications

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Short-Circuit Fault Tolerant Control of a Wind Turbine Driven Induction Generator Based on Sliding Mode Observers

et al. 2017

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Abstract:The installed energy production capacity of wind turbines is growing intensely on a global scale, making the reliability of wind turbine subsystems of greater significance. However, many faults like Inter-Turn Short-Circuit (ITSC) may affect the turbine generator and quickly lead to a decline in supplied power quality. In this framework, this paper proposes a Sliding Mode Observer (SMO)-based Fault Tolerant Control (FTC) scheme for Induction Generator (IG)-based variable-speed grid-connected wind turbines. First, the dynamic models of the wind turbine subsystems were developed. The control schemes were elaborated based on the Maximum Power Point Tracking (MPPT) method and Indirect Rotor Flux Oriented Control (IRFOC) method. The grid control was also established by regulating the active and reactive powers. The performance of the wind turbine system and the stability of injected power to the grid were hence analyzed under both healthy and faulty conditions. The robust developed SMO-based Fault Detection and Isolation (FDI) scheme was proved to be fast and efficient for ITSC detection and localization.Afterwards, SMO were involved in scheming the FTC technique. Accordingly, simulation results assert the efficacy of the proposed ITSC FTC method for variable-speed wind turbines with faulty IG in protecting the subsystems from damage and ensuring continuous connection of the wind turbine to the grid during ITSC faults, hence maintaining power quality.

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Sliding mode observer-based fault-detection of inter-turn short-circuit in induction motor

Sellami

Berriri

Jelassi³

et al. 2013

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Modal and harmonic analysis of three-dimensional wind turbine models

et al. 2016

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In this article, the dynamic responses of wind turbine systems are analytically and numerically investigated. For this purpose, analytic differential equations of motion of wind turbine components subjected to vibration (the blades, the nacelle, and the tower) are solved. This allows determining their dynamic characteristics, mode shapes, and natural frequencies. Two models of two three-dimensional (3D) micro-turbine that are created by the finite element method are set up using the new version of the academic finite element analysis software ANSYS. The first wind turbine is a standard micro three-bladed turbine and the second one is a micro six-bladed Rutland 504. Their natural frequencies and mode shapes are identified based on the modal analysis principle to check the validity of designed models. Dynamic behaviors at several operating conditions of wind turbines are established. Then, spectrum graphs of the structures along x-, y-and z-axis are analyzed.

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Stator-Interlaminar-Fault Detection Using an External-Flux-Density Sensor

Romary

Jelassi

Brudny

2010

IEEE Trans. Ind. Electron.

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Sana Jelassi

Short-Circuit Fault Tolerant Control of a Wind Turbine Driven Induction Generator Based on Sliding Mode Observers

Sliding mode observer-based fault-detection of inter-turn short-circuit in induction motor

Modal and harmonic analysis of three-dimensional wind turbine models

Stator-Interlaminar-Fault Detection Using an External-Flux-Density Sensor

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