A. Rahmouni scite author profile

A. Rahmouni

5Publications

5Citation Statements Received

6Citation Statements Given

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Affiliations

University of Bechar, Université de Sherbrooke, Office National de l'Electricite et de l'Eau Potable

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Impact of the hybrid reactive power compensator on the power grid used a fuzzy PI regulator

Rahmouni

2021

IJPEDS

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The work presented in this article is a contribution to the problem of controlling reactive powers and voltages in an electrical network. Among these control tools, the static reactive power compensator (SVC) was chosen because of its simplicity of control. SVC is one of the Alternative Flexible Current Transmission Systems (FACTS) devices which help to solve the problems encountered in the operation of electrical networks, either on the distribution side or on the transport side. To increase its compensation efficiency in the face of harmonic currents which cause voltage distortion, we have introduced a three-phase harmonic filter. This new hybrid SVC is used to control the reactive power, the voltage and in addition to reduce the voltage distortion and the correction of the power factor in the electrical energy transport network. In order to improve its efficiency, two voltage regulation systems have been chosen in the control system for this compensator, the fuzzy PI regulator and the PIP regulator.

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Comparison of Two Controllers PI and IP of the Voltage of a Two Inverters UPQC

Rahmouni

Benachaiba

2013

AMM

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This work is a study of UPQC in a transient regime, using a new method of identifying disruptive currents based on continuous power, with a comparison of performance of two controler PI and IP of the two voltage inverters. The results of this work showed that this new method is very efficient, and the regulating IP has be able to keep the value of the continuous tension to the close to his value of reference.

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Secure and optimal operation of a power generation and transmission system-application to the Moroccan system

Rahmouni

1998

IEEE Trans. Power Syst.

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Gain scheduling control of induction motor with artificial neural networks

Rahmouni

Lachiver

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Improvement of the Electric Energy Quality While Using a Super-Compensator

Rahmouni

Mazari²,

Benachaiba

2013

AMM

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This paper is a contribution to improve the quality of the electrical energy, of which we study a new compensator that is a combination between a parallel active filter and an UPQC. The two FAP parts use a method of identification of the disruptive currents taking as a basis on calculates it of the reference currents from the components fundamental of the load current relative to the active and reactive continuous powers. that is based on the calculated reference currents from the fundamental components of the load current on the active and the reactive continuous power. That is metered to demonstrate the reliability and effectiveness of this compensator. We were compared it with the UPQC under the same operating conditions. The results of this work have shown that this new control method and highly efficient and super- compensator also gave satisfactory results compared to the UPQC in the case where the load is doubled.

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A. Rahmouni

Impact of the hybrid reactive power compensator on the power grid used a fuzzy PI regulator

Comparison of Two Controllers PI and IP of the Voltage of a Two Inverters UPQC

Secure and optimal operation of a power generation and transmission system-application to the Moroccan system

Gain scheduling control of induction motor with artificial neural networks

Improvement of the Electric Energy Quality While Using a Super-Compensator

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