Lassaâd Sbita scite author profile

Taking into account the limited capability of proton exchange membrane fuel cells (PEMFCs) to produce energy, it is mandatory to provide solutions, in which an efficient power produced by PEMFCs can be attained. The maximum power point tracker (MPPT) plays a considerable role in the performance improvement of the PEMFCs. Conventional MPPT algorithms showed good performances due to their simplicity and easy implementation. However, oscillations around the maximum power point and inefficiency in the case of rapid change in operating conditions are their main drawbacks. To this end, a new MPPT scheme based on a current reference estimator is presented. The main goal of this work is to keep the PEMFCs functioning at an efficient power point. This goal is achieved using the backstepping technique, which drives the DC–DC boost converter inserted between the PEMFC and the load. The stability of the proposed algorithm is demonstrated by means of Lyapunov analysis. To verify the ability of the proposed method, an extensive simulation test is executed in a Matlab–Simulink T M environment. Compared with the well-known proportional–integral (PI) controller, results indicate that the proposed backstepping technique offers rapid and adequate converging to the operating power point.

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PMSG Wind Energy Conversion System: Modeling and Control

Elbeji¹,

Hamed²,

Sbita³

2014

IJMNTA

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Robust high order sliding mode control for performance improvement of PEM fuel cell power systems

Derbeli

Barambones

Farhat

et al. 2020

International Journal of Hydrogen Energy

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Improved PSO: A Comparative Study in MPPT Algorithm for PV System Control under Partial Shading Conditions

et al. 2020

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This paper deals with the implementation and analysis of a new maximum power point tracking (MPPT) control method, which is tested under variable climatic conditions. This new MPPT strategy has been created for photovoltaic systems based on Particle Swarm Optimization (PSO). The novel Improved Particle Swarm Optimization (IPSO) algorithm is tested in several simulations which have been implemented in view of the various system responses such as: voltage, current, and power. The performances of the proposed IPSO algorithm have been completed and compared with results of well-established methods adopted in the literature showing a higher accuracy.

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Lassaâd Sbita

A new maximum power point method based on a sliding mode approach for solar energy harvesting

A Review of Spread-Spectrum-Based PWM Techniques—A Novel Fast Digital Implementation

Control of PEM fuel cell power system using sliding mode and super-twisting algorithms

Efficiency optimization of a DSP-based standalone PV system using a stable single input fuzzy logic controller

A Robust Maximum Power Point Tracking Control Method for a PEM Fuel Cell Power System

PMSG Wind Energy Conversion System: Modeling and Control

Robust high order sliding mode control for performance improvement of PEM fuel cell power systems

Improved PSO: A Comparative Study in MPPT Algorithm for PV System Control under Partial Shading Conditions

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