M. BOUDIA Assam

2025-01-02

Type-2 fuzzy logic controller-based maximum power point tracking for photovoltaic system

Photovoltaic (PV) systems play a crucial role in converting solar energy into electricity, but their efficiency is highly influenced by environmental factors such as irradiance and temperature. To optimize power output, Maximum Power Point Tracking (MPPT) techniques are used. This paper introduces a novel approach utilizing a Type-2 Fuzzy Logic Controller (T2FLC) for MPPT in PV systems. The novelty of the proposed work lies in the development of a T2FLC that offers enhanced adaptability by managing a higher degree of uncertainty, we introduce an original method that calculates the error between the output voltage and a dynamically derived reference voltage, which is obtained using a mathematical equation. This reference voltage adjusts in real-time based on changes in environmental conditions, allowing for more precise and stable MPPT performance. The purpose of this paper is to design and validate the effectiveness of a T2FLC-based MPPT technique for PV systems. This approach seeks to enhance power extraction efficiency in response to dynamic environmental factors such as changing irradiance and temperature. The methods used in this study involve the implementation of T2FLC to adjust the duty cycle of a DC-DC converter for continuous and precise MPPT. The system was simulated under various environmental conditions, comparing the performance of T2FLC against T1FLC. The results show that the T2FLC MPPT system significantly outperforms traditional methods in terms of tracking speed, stability, and power efficiency. T2FLC demonstrated faster convergence to the MPP, reduced oscillations, and higher accuracy in rapidly changing environmental conditions. The findings of this study confirm the practical value of T2FLC logic in improving the efficiency and stability of PV systems, making it a promising solution for enhancing renewable energy technologies. References 33, tables 4, figures 10.

Citation

M. BOUDIA Assam, (2025-01-02), "Type-2 fuzzy logic controller-based maximum power point tracking for photovoltaic system", [national] Electrical Engineering & Electromechanics , Electrical Engineering & Electromechanics

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2022-10-15

Modeling and Control Of Grid-PV-SMES System

Today, storage energy strategy can be considered as one of the important topics to overcome the production outages and electricity shortages. So, the present paper shows a novel power system equipped by storage system based on SMES (Superconducting Magnetic Energy Storage). The SMES can stores energy without losses and can generates it based on demand/consumption or fluctuation of load/productions. The proposed SMES is charged using PV system, then the storage energy is injected into power system, the SMES control strategy is based on PI controller. However, the DC-DC boost is controlled by PID classical controller. Simulation has been carried out for different scenarios: variable irradiation, variable load. Obtained results show that the developed system operates perfectly during all scenarios (charging, standby, discharging), also the equality of consumption and generated power is always guarantee. Hence, SMES can improve the performances of power system under hard conditions.

Citation

M. BOUDIA Assam, (2022-10-15), "Modeling and Control Of Grid-PV-SMES System", [international] Conference: 2022 International Conference of Advanced Technology in Electronic and Electrical Engineering (ICATEEE) , university of m'sila

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2021-08-31

Modeling and Control of Power System Containing PV System and SMES using Sliding Mode and Field Control Strategy

Although the great advance in power system production and operation, storage energy technologies and its control techniques can be considered as one of the most important and critical topics of power companies , government and consumers, especially when the power system containing renewable source and storage system simultaneously. In this paper, a novel electrical grid structure including photovoltaic system and storage system based on Superconducting Magnetic Energy Storage (SMES) has been proposed and investigated. The SMES produced power is injected in power system during specific time or when it required. Two control strategies for exchanged power Grid- SMES have been proposed and analyzed, the first uses sliding mode and the second uses field oriented control based on PI controller, also the injected SMES power is controlled by PID controller. In addition, the photovoltaic system operates at the MPP employing PID MPPT method. The proposed control strategies have been tested successfully in which many scenarios have been studied: standby and discharging of SMES, injection of SMES storage energy for variable and constant load and control of grid containing PV system. In addition, a comparative study of exchanged power Grid- SMES control using Sliding mode and field oriented control based on PI controller has been presented and discussed.

Citation

M. BOUDIA Assam, (2021-08-31), "Modeling and Control of Power System Containing PV System and SMES using Sliding Mode and Field Control Strategy", [national] ournal of New Materials for Electrochemical Systems , iieta

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2021-07-13

New hybrid photovoltaic system connected to superconducting magnetic energy storage controlled by PID-fuzzy controller

Recently, the rapid advancement technologic of photovoltaic system with storage system based on batteries has taking great consideration. However, their low life time, limited power sizing and low efficiency are the most drawbacks, to overcome these previous disadvantages, new PV system based superconducting magnetic energy storage (SMES) has been proposed and investigated. In this paper, two independent control strategies have proposed and studied, the first control loop is designed to extract the maximum power point (MPP) of PV system based on backstepping controller, the second controller is established to control the SMES where the storage energy is controlled by PID-fuzzy controller. A comparative study between PID classic controller and PID-fuzzy controller has been carried out, in which many improvements have been demonstrated, where the second controller has provided more superiority in term of accuracy and oscillation of generated power of PV-SMES.

Citation

M. BOUDIA Assam, (2021-07-13), "New hybrid photovoltaic system connected to superconducting magnetic energy storage controlled by PID-fuzzy controller", [national] Energy Conversion and Management , Elsevier

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2019-08-31

New Improved Hybrid MPPT Based on Backstepping-sliding Mode for PV System

In this paper, new improved maximum power point tracking using combinedbackstepping -sliding mode has been designed and studied, it is very known that the sliding mode control provides a good performance, however the charting (oscillation) is the most drawback of this method. So, to overcome the previous dilemma, a novel combined MPPT employing backstepping and sliding mode controller has been proposed, modeling of PV system and proposed hybrid backstepping-sliding have been presented with details. Simulation tests have been carried out using BP SX 150 solar panel, obtained results demonstrate a huge improvement in term of tracking, less oscillation and low ripple.

Citation

M. BOUDIA Assam, (2019-08-31), "New Improved Hybrid MPPT Based on Backstepping-sliding Mode for PV System", [national] Journal Européen des Systèmes Automatisé , iieta

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2018-12-03

Backstepping MPPT for photovoltaic system

The studies in photovoltaic system are increasing in the last years, because of a large, secure, broadly available and clean, but the output powers photovoltaic is affected by the change of the irradiation, temperature and load. Therefore, to maximize the efficiency of photovoltaic system it's necessary to track the maximum power point (MPP). In this work backstepping algorithm MPPT has been applied to improve the performance of photovoltaic system by using BP SX150S solar module connected to the DC-DC derived by the Backstepping MPPT, a compared study has been applied between backstepping and P&O algorithm, the comparative study results proposed backstepping algorithms prove the effectiveness of the proposed algorithm compared to P&O MPPT.

Citation

M. BOUDIA Assam, (2018-12-03), "Backstepping MPPT for photovoltaic system", [international] Conference: Second International Conference on Electrical Engineering ICEEB’2018, December 2-3 2018, Biskra, Algeria , university of biskra

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Direct Torque Control-Fuzzy Logic Controller (DTC-FLC)of Doubly Fed Induction Machine (DFIM)

This paper presents a new advanced Direct Torque Control of doubly fed induction motor using Fuzzy logic controller, which the classic integral proportional (IP) controller have been replaced by new fuzzy logic controller (FLC) of speed to overcome the most drawbacks and limitations of classical DTC control, accuracy and the convergence speed under sudden changing torque reference and/or speed reference. The fuzzy logic controller parameter that optimize the performances of conventional Direct Torque Control of doubly fed induction motor. The proposed fuzzy logique controller have shown is better than the conventional controller.

Citation

M. BOUDIA Assam, (2018-12-03), "Direct Torque Control-Fuzzy Logic Controller (DTC-FLC)of Doubly Fed Induction Machine (DFIM)", [international] Conference: Second International Conference on Electrical Engineering ICEEB’2018, December 2-3 2018, Biskra, Algeria , university of biskra

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2018-12-02

A comparative study on MPPT techniques for photovoltaic systems operating under fast changing environments

this paper present a new maximum power point tracking for photovoltaic system, variable step perturb and observe, in which to ameliorate the disadvantages of classical perturb and observe, a comparative study between the classical and the variable step is carried out in which many point has been proved, considering the change of temperature and irradiation, the results obtained proved the performance of the variable step including response time and oscillation. Keywords-solar energy, maximum power point, boost converter, perturb and observe.

Citation

M. BOUDIA Assam, (2018-12-02), "A comparative study on MPPT techniques for photovoltaic systems operating under fast changing environments", [international] Conference: Second International Conference on Electrical Engineering ICEEB’2018, December 2-3 2018, Biskra, Algeria , university of m'sila

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Type-2 fuzzy logic controller-based maximum power point tracking for photovoltaic system

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