M. BENHAMADOUCHE Abdelouahab djoubair

MCA

Directory of teachers

Department

Departement of ELECTRONICS

Research Interests

Specialized in Departement of ELECTRONICS. Focused on academic and scientific development.

Contact Info

University of M'Sila, Algeria

Email : abdelouahabdjoubair.benhamadouche@univ-msila.dz

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Recent Publications

2023-06-05

Optimal design and sizing of renewable energies in microgrids based on financial considerations a case study of Biskra, Algeria

Integration of renewable energy sources in microgrids is a challenging process, where a wealth of metrics should be optimized together to achieve an optimal design. This paper presents a comprehensive approach for selecting the best microgrid structure including a versatile renewable energy source (RES), the proposed microgrid systems are considered using investment costs evaluation and total power generation needs. Through the analysis of the economic feasibility and guiding decision-making on microgrid projects, three system configurations have been examined at the Algerian site of Biskra using the HOMER software. In this work, photovoltaics, photovoltaics/wind, and photovoltaics/wind/diesel projects were explored in respect to the specificities of the targeted region. The Net Present Cost (NPC) was found to be 11.7 M$,13.3 M$, and 9.45 M$ respectively, likewise, Levelized Cost of Energy (LCOE) were 0.19 $/kWh, 0.728 $/kWh, and 0.188 $/kWh respectively. Where a comparative analysis was carried out as a sensitivity analysis to find out the effect of different economic and technical conditions on costs and parameters. Cash flows were also forecasted, and financial criteria such as the Internal Rate of Return (IRR) (13%, 15%), Net Present Value (NPV) (1 M$ to 10 M$) for three projects, and Discounted Payback (DPb) (6 to 9 years). In addition, Monte Carlo simulation is used to assess the risks associated with the project's net present value, this is done to maintain the robustness of project decision-making outcomes. The findings emphasise the importance of financial analysis in the design and sizing of RES microgrid.
Citation

M. BENHAMADOUCHE Abdelouahab djoubair, (2023-06-05), "Optimal design and sizing of renewable energies in microgrids based on financial considerations a case study of Biskra, Algeria", [national] Energy Conversion and Management , Pergamon

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2023-04-21

New cellulosic fibre from Spathes of male date for lightweight composite materials: extraction and characterization

Researchers and industry are looking for green and sustainable materials as reinforcement for lightweight composite structures. This research aim was designed to study the characteristics of the fibre extracted from a waste product of the spathe of date palm (SDP). In this work, density, crystallinity index, crystal size, tensile strength, surface roughness, extreme degradation temperature and thermal stability of SDP fibres were investigated. Density is estimated to be 0.59 g/cm3. X-ray diffraction analysis indicated the crystallinity index about (57.82%) and the crystal size is (19 nm). The results of the thermal analysis gave the degradation temperature as 270 °C and Ea as 69.14 kJ/mol. Scanning electron microscopy (SEM) investigation confirmed the presence of surface contaminants including wax and other foreign materials. Also, the mechanical properties identified are tensile strength (100 ± 21.5 MPa), and Young's modulus (4 ± 0.9% GPa). Based on the study's findings, SDP fibres should be considered for usage as a reinforcing material in the development of novel polymer composites with a wide range of lightweight industrial applications.
Citation

M. BENHAMADOUCHE Abdelouahab djoubair, (2023-04-21), "New cellulosic fibre from Spathes of male date for lightweight composite materials: extraction and characterization", [national] Journal of Materials Research and Technology , Elsevier

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2023-03-30

Enhanced FPGA-Based Controller for Three Phase Shunt Active Power Filter

In this paper, a three-phase shunt active power filter (SAPF) controller with a fully digital implementation is presented. The main goal
of this contribution is to implement a digital direct power control (DDPC) algorithm without phase-locked-loop (PLL) for SAPF. This
algorithm is intended for power quality improvement and current harmonic elimination. The controller introduced in this paper is costeffective, has a fast-dynamic response, and has a simple hardware implementation. In order to comply with the above specifications,
a dedicated controller has been conceived and fully implemented within a field-programmable gate array (FPGA) device. This
FPGA-based controller integrates the whole signal-processing functions needed to drive the SAPF, as well as an original method
for sector identification. The intended controller provides the desired power references to select the optimal switching sequences.
The switching orders follow the grid reference to drive the voltage source inverter (VSI), so the SAPF achieves good performances
while ensuring balanced overall supply currents, unity power factor, and reduced harmonic load currents. The proposed digital
implementation achieves a valuable compromise between fast dynamic response, minimum execution time, and reduced FPGA
resources, through a simple hardware design implementation. The entire system is developed and simulated using VHDL and VHDLAMS languages.
Citation

M. BENHAMADOUCHE Abdelouahab djoubair, (2023-03-30), "Enhanced FPGA-Based Controller for Three Phase Shunt Active Power Filter", [national] Power Electronics and Drives , sciendo

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2023-03-15

Techniques d’optimisation et de contrôle de puissance

Ce cours est destiné aux étudiants du Master académique « Énergies renouvelables en Électrotechnique » du deuxième semestre. Le contenu de ce cours est réalisé dans le but de renforcer les acquis des étudiants en ce qui concerne la conception des dispositifs d’électronique de puissance et de conditionnement des systèmes à énergie renouvelable, ainsi que les techniques de contrôle associées qui permettent d’exploiter les installations photovoltaïques et éoliennes notamment, en drainant efficacement le maximum de puissance.
Ce cours permettra aux étudiants d’étudier et de maitriser certains dispositifs et certains algorithmes pour la recherche et la poursuite de la puissance maximale appelé « MPPT ». Ces dispositifs logiciels et matériels permettent de puiser le maximum de puissance possible d’un générateur PV ou d’une éolienne et de l’injecter, en tant que puissance utile, dans une charge électrique autonome ou connectée.
Citation

M. BENHAMADOUCHE Abdelouahab djoubair, (2023-03-15), "Techniques d’optimisation et de contrôle de puissance", [national] M'Sila University

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2022-04-19

FPGA Implementation of Fixed-Point Model for a Single-Phase AC-DC Converter with Unity Power Factor.

This paper presents a design of digital control based on a fixed-point model for an application of a single phase AC-DC boost Converter with a high power factor and low current distortion. The system uses a simple closed-loop control with a slow voltage loop (outer loop) to stabilize the output DC bus voltage at the required level and a fast current loop (inner loop) to achieve input power factor correction. The digital control uses a fixed-point structure that improves the control accuracy without increasing the number of arithmetic operations and does not require specific running conditions. The behavior of the system is fully verified by using a digital simulation under Matlab/Simulink environment and experimentally with an implementation in real-time using Xilinx ISE 14.7 software, hardware description language VHDL, Xilinx FPGA ML605 board, and EVAL-AD7656 evaluation board for high-speed analog-to-digital conversion. The obtained results show a good agreement between experiments and simulations for steady-state and transient-responses.
Citation

M. BENHAMADOUCHE Abdelouahab djoubair, (2022-04-19), "FPGA Implementation of Fixed-Point Model for a Single-Phase AC-DC Converter with Unity Power Factor.", [national] Journal Européen des Systèmes Automatisés , International Information and Engineering Technology Association (IIETA)

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2021-03-03

Three Phase Grid-Connected Photovoltaic System incorporating an Active Power Filter

Three Phase Grid-Connected Photovoltaic System incorporating an Active Power Filter
Citation

M. BENHAMADOUCHE Abdelouahab djoubair, (2021-03-03), "Three Phase Grid-Connected Photovoltaic System incorporating an Active Power Filter", [international] Séminaire International sur l’Industrie et la Technologie ORAN , Oran, Algeria

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2020-02-23

Méthodologie et outil d'aide à la conception des systèmes multi-technologiques par VHDL

Méthodologie et outil d'aide à la conception des systèmes multi-technologiques par VHDL
Citation

M. BENHAMADOUCHE Abdelouahab djoubair, (2020-02-23), "Méthodologie et outil d'aide à la conception des systèmes multi-technologiques par VHDL", [national] Ferhat Abass Setif University

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2019-08-24

FPGA-based hardware-in-the-loop for multi-domain simulation

In this paper, we present a new approach for complex system design, which allows rapid, efficient and low-cost prototyping. This approach can simplify designing tasks and go faster from system modeling to effective hardware implementation. Designing multi-domain systems requires different engineering competences and several tools, our approach gives a unique design environment, based on the use of VHDL-AMS modeling language and FPGA device within the same design tool. This approach is intended to enhance hardware-in-the-loop (HIL) practices with a more realistic simulation which improve the verification process in the system design flow. This paper describes the implementation of a software/hardware platform as a practical support for our approach, the feasibility and the benefits of this approach are demonstrated through a practical case study for power converter control.
Citation

M. BENHAMADOUCHE Abdelouahab djoubair, (2019-08-24), "FPGA-based hardware-in-the-loop for multi-domain simulation", [national] International Journal of Modeling, Simulation, and Scientific Computing , World Scientific Publishing Company

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2018-10-10

FPGA based Hardware-in-the-Loop Simulation for Digital Control of Power Converters using VHDL-AMS

This paper presents a new approach for complex system design, allowing rapid, efficient and low-cost prototyping. Using this approach can simplify designing tasks and go faster from system modeling to effective hardware implementation. Designing multi-domain systems require different engineering competences and several tools, our approach gives a unique design environment, based on the use of VHDL-AMS modeling language and FPGA device within a single design tool. This approach is intended to enhance hardware-in-the-loop (HIL) practices with a more realistic simulation which improve the verification process in the system design flow. This paper describes the implementation of a software/hardware platform as effective support for our methodology. The feasibility and the benefits of the presented approach are demonstrated through a practical case study of a power converter control. The obtained results show that the developed method achieves significant speed-up compared with conventional simulation methods, using minimum resources and minimum latency.
Citation

M. BENHAMADOUCHE Abdelouahab djoubair, (2018-10-10), "FPGA based Hardware-in-the-Loop Simulation for Digital Control of Power Converters using VHDL-AMS", [national] International Journal of Advanced Computer Science and Applications , The Science and Information (SAI) Organization

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2014-09-12

MPPT system for photovoltaic module connected to battery adapted for unstable atmospheric conditions using VHDL-AMS

This paper presents a novel maximum power point tracking (MPPT) algorithm used in photovoltaic (PV) module connected to a storage battery. The main aim of this algorithm is to maximize the PV array output power by tracking continuously the maximum power point (MPP) which depends on atmospheric conditions (panel temperature and irradiance). The full system is composed of a PV array, a storage battery and an electronic boost-type DC–DC converter inserted between the PV array and the storage battery. The proposed MPPT control algorithm used to control the boost DC–DC converter is intended to lead the PV array power to its maximum point by keeping the PV array voltage stable with little deviation. The modeling of this system is realized using the novel concept of “functional prototyping” based on Very high speed integrated circuits Hardware Description language–Analog and Mixed Signal (VHDL-AMS) which can be particularly useful to design and redesign complex system with multi-technologic aspect, and to optimize strategies of control. The usefulness of the proposed MPPT algorithm has been fully verified by digital simulation using Simplorer software, where the obtained results show that the proposed MPPT method can improve PV power system performances noticeably in steady and dynamic states.
Citation

M. BENHAMADOUCHE Abdelouahab djoubair, (2014-09-12), "MPPT system for photovoltaic module connected to battery adapted for unstable atmospheric conditions using VHDL-AMS", [national] Arabian Journal for Science and Engineering , Springer

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2010-06-24

A rapid analysis of very short channel MOSFET performances by using a dynamic simple model

A simplified MOSFET model is presented in this paper. The performances of the model, UNICELL (Unique Cell Model), are compared to those provided by BSIM3V3 taken as reference, even for very short channel length MOSFET (45 nm). It is shown that using only two UNICELL cells (BICELL) gives a good deal for CAD static and dynamic usage, because of the few number of parameters to be used in comparison to BSIM3. BICELL can also be used for determining internal performance analysis.
Citation

M. BENHAMADOUCHE Abdelouahab djoubair, (2010-06-24), "A rapid analysis of very short channel MOSFET performances by using a dynamic simple model", [international] Mixed Design of Integrated Circuits and Systems (MIXDES) , Wroclaw, Poland

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2009-02-25

A virtual prototype of Proton exchange membrane fuel cell using VHDL-AMS language

The aim of this paper is to introduce a novel modeling method for the Proton exchange membrane full cell (PEMFC) based on the novel concept of “virtual prototyping” and to present a simple and accurate model of the cell performance by using the mixed-technology modeling language VHDL-AMS. This model describes the steady state and the dynamic behavior of a PEM fuel cell using its characteristic equations. The phenomenon of a charge double layer and the electrochemical parameters such as resistivity of membrane, concentration of hydrogen (oxygen) in catalytic interface of anode (cathode), and current density are considered in this modeling method. These parameters are adjustable and present a good solution to predict output voltage, efficiency, and output power of the PEMFC.
Citation

M. BENHAMADOUCHE Abdelouahab djoubair, (2009-02-25), "A virtual prototype of Proton exchange membrane fuel cell using VHDL-AMS language", [national] The Journal of Electrochemical Energy Conversion and Storage , ASME

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