SALAH Belkhiri
الصالح بلخيري
salah.belkhiri@univ-msila.dz
0773453688
- DEPARTEMENT OF: ELECTRICAL ENGINEERING
- Faculty of Technology
- Grade MCA
About Me
Research Domains
Matériaux Supraconducteurs. Modélisation des phénomènes électromagnétique en électrotechnique. Modélisation des réseaux électriques. Automatismes. Les capteurs de vibrations piézoélectriques. Mécatronique
LocationMsila, Msila
Msila, ALGERIA
Code RFIDE- 2023
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master
BAADJI Manar , KOUIDRI Anouar Rami
Étude de l’implantation des matériaux supraconducteurs de type II pour la conception d’un moteur à induction
- 2023
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master
BENSALEM Hadil Nadia , BEN HADAD Chems
Modélisation d’une machine synchrone totalement supraconductrice
- 2023
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master
ZAROUAK Amira
Etude et réalisation d’une commande de vitesse d’une machine à courant continu à l’aide d’un ARDUINO UNO
- 2022
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master
Chouki Raziqa , Chergi Lazhare
Etude et modélisation du comportement électromagnétique Dans les matériaux supraconducteurs à base de fer
- 2022
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master
CHEBABHI Layachi , LASFER Oussama
Modélisation d'une machine synchrone à aimant supraconducteur
- 2021
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master
LARIBI Yacine , GUERTOUFA Ahmed
Etude pour la Conception d'une Machine Electrique Supraconductrice
- 2020
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master
BOUROUBI Malek , HERABI Asma
Amélioration de la stabilité transitoire des réseaux électriques par SFCL en présence du défaut de court-circuit
- 2019
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Licence
SALMI Amir Faiçal , DEGHICHE Mohamed
Etude de l’influence des courants de courtcircuit sur la stabilité des réseaux électriques
- 2018
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Licence
DAHMANI Hemza , DOUMIR Souheyb
Modélisation des matériaux supraconducteurs application à la limitation de courant de défaut dans un réseau électrique à neuf (09) jeux de barres
- 2016
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master
MOUSSAI Saber
Modélisation de Dispositifs Supraconducteurs Application à la Limitation de Courant de Défaut
- 2015
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master
LAMINE Miloud
Etude et modélisation des courants de court-circuit dans les réseaux MT/BT
- 2015
- 2014
- 2013
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master
BAKOUR Sallah Eddine
Etude de l’évolution des frontières libres de conductions dans les matériaux Supraconducteurs de type II
- 2012
- 2011
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master
BOUZIDI Ahmed
CONTRIBUTION A LA MODELISATION DES MATERIAUX SUPRACONDUCTEURS A HAUT TEMPERATEUR CRITIQUE (HTC)
- 1977-04-12 00:00:00
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SALAH Belkhiri birthday
- 2024-10-25
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2024-10-25
Exploring the performance of piezoresistive accelerometers: modelling, validation, and optimization
In this article, we have chosen to explore the performance of the piezoresistive accelerometer, favoured for its comparative advantages over other accelerometers. Our approach includes modelling this accelerometer according to the law of motion and validating the model through simulation tests and experimental trials. With this approach, we can determine the optimal damping rate and frequency range for the piezoresistive accelerometer, the optimisation of these parameters is crucial to maximise the performance of the accelerometer in various operating conditions, ensuring high sensitivity and fast response while minimising distortions or errors in the collected data. These optimal values of damping rate and frequency range guarantee precise and reliable accelerometer measurements. This paper provides a comprehensive overview of sensor design principles and signal processing methods from a theoretical standpoint. Beginning with sensor design, we delve into the foundational aspects of transduction principles, emphasising the conversion of physical quantities into electrical signals. The selection and optimisation of sensing elements are explored, highlighting material properties, geometrical considerations, and packaging strategies to ensure sensitivity, linearity, and robustness.
Citation
salah belkhiri , , (2024-10-25), Exploring the performance of piezoresistive accelerometers: modelling, validation, and optimization, Nondestructive Testing and Evaluation, Vol:40, Issue:1, pages:--, TAYLOR & FRANCIS LTD
- 2024-10-16
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2024-10-16
Improvement of Capacitive Accelerometers: Integrating Modeling, Electrode Design, Signal Processing, and Material Selection
This work offers a thorough method for integrating advanced modeling, electrode design, signal processing, and material selection techniques to maximize the performance of capacitive accelerometers. Key performance measures, including noise reduction, sensitivity, and range, can be systematically analyzed and simulated to forecast how design decisions would affect the overall behavior of the sensor. Advanced electrode designs greatly increase capacitance, which results in more precise and trustworthy sensor readings. These designs include optimizing the shape and using high-permittivity materials. Furthermore, to guarantee that the accelerometer's output precisely represents actual motion even in noisy surroundings, noise reduction strategies including filtering and digital signal processing methods are essential. Additionally, calibration is emphasized as a critical step in preserving measurement accuracy over time and accounting for environmental changes and sensor drift. The choice of material, with an emphasis on thermally stable and high-permittivity materials, is crucial in determining the capacitance, sensitivity, and durability of the sensor. The study offers a paradigm for the creation of capacitive accelerometers that perform better across a variety of applications by striking a balance between these variables.
Citation
salah belkhiri , , (2024-10-16), Improvement of Capacitive Accelerometers: Integrating Modeling, Electrode Design, Signal Processing, and Material Selection, ECS Journal of Solid State Science and Technology, Vol:13, Issue:10, pages:7002, ELECTROCHEMICAL SOC INC
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- 2024-06-30
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2024-06-30
Enhancing the Piezoelectric Accelerometer for Effective Monitoring and Diagnosis of Engineering Structures
Vibrational analysis plays a pivotal role in predictive maintenance and condition-monitoring, providing the capability to identify emerging issues before they escalate into equipment failures, unplanned downtime, or safety hazards. Attaining maximum accuracy in vibrational measurements is crucial for the efficacy of these analyses. In this study, our objective is to enhance the measurement accuracy of the piezoelectric accelerometer, a fundamental transducer in vibrational analysis. We propose a novel formula that establishes a connection between the measurement accuracy of the sensor and the displacements of vibrational movements. This improvement is designed to elevate the precision of vibration analysis, reducing errors in fault detection and optimizing the outcomes of condition-based preventative maintenance initiatives. The overarching goal is to enhance the reliability of vibration analysis techniques, ensuring a more robust and efficient approach to machine condition monitoring and maintenance planning.
Citation
salah belkhiri , , (2024-06-30), Enhancing the Piezoelectric Accelerometer for Effective Monitoring and Diagnosis of Engineering Structures, Romanian Journal of Acoustics and Vibration, Vol:21, Issue:1, pages:12-19, Romanian Society of Acoustics
- 2024-04-26
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2024-04-26
Application of the FMECA Method for Optimizing the Reliability of the 1600T Press
Reliability optimization is a process aimed at improving the effectiveness and efficiency of maintenance activities within an organization. This optimization can concern various aspects, including failure prevention, resource management, cost reduction, and improving the operational availability of equipment. In this work, our study aims to implement a comprehensive maintenance strategy for the 1600T press at Algal+ company with the primary objectives of preventing breakdowns, minimizing unplanned downtime, optimizing productivity, extending the lifespan of equipment, ensuring safety, and improving the competitiveness and profitability of the company. The problem of reliability and availability of the 1600T press at the Algal+ company can be addressed by a systematic approach to industrial maintenance. By adopting a holistic approach to industrial maintenance, Algal+ company can improve the reliability and availability of its equipment, thereby reducing unplanned downtime and optimizing overall productivity. By systematically applying FMECA to the 1600T press, the optimization efforts become data-driven and focused on addressing the most critical risks. This, in turn, significantly contributes to optimizing the reliability and availability of the equipment, reducing unplanned downtime, and enhancing overall operational efficiency.
Citation
salah belkhiri , , (2024-04-26), Application of the FMECA Method for Optimizing the Reliability of the 1600T Press, Journal of Advanced Manufacturing Systems, Vol:23, Issue:3, pages:659-682, World Scientific
- 2024-04-16
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2024-04-16
Incorporating the Time-synchronous Averaging Method into Vibration Analysis Methodologies for the Detection and Localization of Bearing Defects
The objectives of this paper are to highlight the significance of vibration analysis, especially in predictive maintenance for rotating machinery, and to emphasize the importance of detecting bearing defects that may result in machinery failure.
Citation
salah belkhiri , , (2024-04-16), Incorporating the Time-synchronous Averaging Method into Vibration Analysis Methodologies for the Detection and Localization of Bearing Defects, Journal of Modern Industry and Manufacturing, Vol:3, Issue:2, pages:1-10, Innovation Forever Publishing Innovation Forever Publishing
- 2024-02-22
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2024-02-22
A piezoelectric sensor with high accuracy and reduced measurement error
A piezoelectric sensor is a type of transducer that utilizes the piezoelectric effect to convert changes in pressure, acceleration temperature, or force into an electrical charge. This unique property makes piezoelectric sensors valuable for a wide range of applications in various industries. In this work, the main focus is on studying the effects of piezoelectric materials and exploring the functionality of piezoelectric sensors. The physical behavior of the sensor is thoroughly examined and a mathematical formula relating the accuracy of the sensor to relative movement or vibratory displacement is derived. The developed model is verified through simulations and experimental tests. By carefully selecting the appropriate damping rate, it is possible to enhance the parameters of the piezoelectric sensor and advance the technique of vibratory analysis. Overall, this research aims to enhance our understanding of piezoelectric materials and sensors, and how they can be effectively utilized in various applications involving vibratory analysis. The findings from this study can contribute to better design and implementation of piezoelectric sensors, improving their accuracy and effectiveness in capturing and analyzing vibratory movements.
Citation
salah belkhiri , , (2024-02-22), A piezoelectric sensor with high accuracy and reduced measurement error, Journal of Computational Electronics, Vol:23, Issue:2, pages:448–455, Springer Nature
- 2024-02-19
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2024-02-19
Matériaux Electrotechniques
Le contenu de ce document est destiné aux étudiants en 3e année Licence de ELM ainsi à toute les personnes intéressées par l’étude, caractéristiques et l’évolution des matériaux industriels au département de génie électrique à l’Université de Mohamed Boudiaf de M’sila. Il s’inspire de nombreux ouvrages et références bien plus complets, ainsi que divers documents de collègues universitaires. Ce document est bien sur incomplet : il manque des chapitres entiers, des démonstrations, des exemples, mais il présente plusieurs notions de base concernant les matériaux utilisés en électrotechnique. Toute remarque est la bienvenue, même en ce qui concerne les probablement nombreuses fautes d’orthographes. Pour plus de détaille et d’aprofondement veuillez revoir les références. Le but de ce travail est d’accompagner l’étudiant ou l’apprenant depuis l’apprentissage des notions de base jusqu’aux notions avancées utilisées couramment dans le domaine industriel. Parallèlement, il peut également convenir à une formation ciblée, à la compréhension de points particuliers ou de principes généraux, souvent préalables à la spécialisation en génie électrique.
Citation
salahbelkhiri , ,(2024-02-19); Matériaux Electrotechniques,Msila University,
- 2024-01-05
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2024-01-05
The main distinguishing characteristic of active vibration control
Active Vibration Control (AVC) stands out as a prominent technique in the realm of vibration mitigation and structural dynamics. Unlike passive vibration control methods that rely on dampers or isolators, AVC systems actively manipulate forces or motions within a structure in real-time to counteract undesirable vibrations. In this paper, the main distinguishing characteristic of AVC lies in its proactive approach, wherein control algorithms and actuators are employed to actively sense and respond to dynamic changes in the system. The application of Newton’s second law allows to model of the vibration sensors operation, followed by simulations to improve their performance, contributes to the advancement of the active vibration control system by enabling more precise detection and measurement of vibrations.
Citation
salah belkhiri , , (2024-01-05), The main distinguishing characteristic of active vibration control, Mechanical Engineering Advances, Vol:2, Issue:1, pages:1140, Academic Publishing
- 2023-09-06
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2023-09-06
Méthodes Numériques Appliquées
Ce Module est réservé pour la présentation des différentes méthodes et techniques numériques dans le but de faire : - Exposer et acquérir un ensemble de méthodes numériques permettant de résoudre des problèmes impossibles par des approches analytiques. - Savoir transposer la connaissance mathématique pure à un ordinateur aux performances finies. - Résoudre numériquement des problèmes dont la solution analytique est connue ou non. - Analyser le comportement des méthodes.
Citation
salahbelkhiri , ,(2023-09-06); Méthodes Numériques Appliquées,Msila University,
- 2023-06-08
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2023-06-08
Improvement of the Relative Sensitivity for Obtaining a High Performance Piezoelectric Sensor
The purpose of a piezoelectric sensor is to measure the vibratory movements of structures by the direct effect of the piezoelectric material. In this paper, the operating principle of the piezoelectric sensor is defined in detail, and it is translated as a mathematical model (i.e., the modeling of this type of sensors). This developed model relates the accelerometer electrical parameters with their mechanical parameters, and simulation of this model allows the appropriate sensor damping rate to be chosen which minimizes error and improves accuracy and sensitivity. The proposal of a new relation links the relative frequency with the piezoelectric sensor natural frequency that makes it possible to minimize the resonance phenomenon effect, to facilitate the suitable choice of the sensor and to protect it.
Citation
ZINE GHEMARI , salah belkhiri , Salah Saad, , (2023-06-08), Improvement of the Relative Sensitivity for Obtaining a High Performance Piezoelectric Sensor, IEEE Instrumentation & Measurement Magazine, Vol:26, Issue:4, pages:49-56, IEEE
- 2023-05-01
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2023-05-01
A capacitive sensor with high measurement accuracy and low electrical energy consumption
An accelerometer is a transducer that, on its own or in conjunction with electronics, instantly transmits an electrical signal corresponding to the force applied to its base. To measure vibrations with a capacitive accelerometer, it is important to know its accuracy, exact sensitivity, and reliability but sometimes the phase of the signal or the frequencies of interest. This paper chooses the capacitive accelerometer through its advantages over other types. The modeling of this type of accelerometer has been the subject of extracting from new formulas linked to the characteristics of the capacitive sensor and the simulation of the developed models makes it possible to minimize the measurement error, maximize the measurement accuracy, and reduce the electrical energy consumption by the appropriate choice of the damping rate and the frequency margin. A new equation for damping rate according to error is extracted by using the developed model. This equation makes easier the choice of damping rate that will minimize error to a very low value and maximize accuracy. This developed model is confirmed by experimental tests and finally, a new design of the capacitive accelerometer is proposed.
Citation
ZINE GHEMARI , salah belkhiri , , (2023-05-01), A capacitive sensor with high measurement accuracy and low electrical energy consumption, Applied Physics A, Vol:129, Issue:5, pages:362, Springer Berlin Heidelberg
- 2023
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2023
A capacitive sensor with high measurement accuracy and low electrical energy consumption
An accelerometer is a transducer that, on its own or in conjunction with electronics, instantly transmits an electrical signal corresponding to the force applied to its base. To measure vibrations with a capacitive accelerometer, it is important to know its accuracy, exact sensitivity, and reliability but sometimes the phase of the signal or the frequencies of interest. This paper chooses the capacitive accelerometer through its advantages over other types. The modeling of this type of accelerometer has been the subject of extracting from new formulas linked to the characteristics of the capacitive sensor and the simulation of the developed models makes it possible to minimize the measurement error, maximize the measurement accuracy, and reduce the electrical energy consumption by the appropriate choice of the damping rate and the frequency margin. A new equation for damping rate according to error is extracted by using the developed model. This equation makes easier the choice of damping rate that will minimize error to a very low value and maximize accuracy. This developed model is confirmed by experimental tests and finally, a new design of the capacitive accelerometer is proposed.
Citation
salah belkhiri , , (2023), A capacitive sensor with high measurement accuracy and low electrical energy consumption, Applied Physics A Materials Science & Processing, Vol:129, Issue:5, pages:362, Springer Nature
- 2023
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2023
Power quality improvement in infected power grid using solar SAPE based on DPC with disturbance rejection principle
Power quality improvement in infected power grid using solar SAPE based on DPC with disturbance rejection principle
Citation
salah belkhiri , ,(2023), Power quality improvement in infected power grid using solar SAPE based on DPC with disturbance rejection principle,The 1st International Conference on Renewable Solutions for Ecosystems: Towards a Sustainable Energy Transition ICRSETOSET 2023, IEEE,Djelfa
- 2023
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2023
Improvement of the Relative Sensitivity for Obtaining a High Performance Piezoelectric Sensor
The purpose of a piezoelectric sensor is to measure the vibratory movements of structures by the direct effect of the piezoelectric material. In this paper, the operating principle of the piezoelectric sensor is defined in detail, and it is translated as a mathematical model (i.e., the modeling of this type of sensors). This developed model relates the accelerometer electrical parameters with their mechanical parameters, and simulation of this model allows the appropriate sensor damping rate to be chosen which minimizes error and improves accuracy and sensitivity. The proposal of a new relation links the relative frequency with the piezoelectric sensor natural frequency that makes it possible to minimize the resonance phenomenon effect, to facilitate the suitable choice of the sensor and to protect it.
Citation
salah belkhiri , , (2023), Improvement of the Relative Sensitivity for Obtaining a High Performance Piezoelectric Sensor, IEEE Instrumentation & Measurement Magazine, Vol:26, Issue:4, pages:49-56, IEEE
- 2022-12-31
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2022-12-31
Implantation of Coated Superconducting Materials in the Synchronous Machine for Superconducting Energy Storage.
Numerical tools appear to be essential for modeling and designing devices based on superconducting materials. In this article different simulation results are presented, using a computer code based on the finite element method adopted for the resolution of the electromagnetic equations, in the case of an axisymmetric two-dimensional problem, with this code we study the variations of the different electromagnetic quantities. The second generation superconductor has been modeled as an interesting diamagnetic material as inductive pulse sources. The performance in magnetic field resistance, energy storage and thermal stability of the ribbon, known as YBCO, makes it possible to broaden its field of application. Two categories of machines have been proposed and analyzed, the first is classic and the second uses a superconducting ribbon. In addition, a comparative study between the two proposed models is carried out and the results are analyzed and discussed.
Citation
salah belkhiri , ZINE GHEMARI , , (2022-12-31), Implantation of Coated Superconducting Materials in the Synchronous Machine for Superconducting Energy Storage., Journal of New Materials for Electrochemical Systems, Vol:25, Issue:4, pages:277-285, IIETA
- 2022-10-25
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2022-10-25
Sécurité Indudtrielle et Habilitation
support de cours s’adresse aux étudiants en Master II de l’ELM - Semestre 3 du département Génie électrique à l’université de Mohamed Boudiaf de M’sila. Il a pour but : De voir tous les problèmes liés à l’électricité notamment les chocs électriques (contacts directs, contacts indirects). De savoir les dangers et les mesures préventives dans les installations électriques. De considérer les causes des incendies et explosions d’origine électrique dans installations électriques. D’assurer une veille réglementaire efficace et évaluer la conformité de l’entreprise par rapport aux normes et réglementations en vigueur. De sensibiliser et faire adhérer chacun aux politiques de gestion des risques. D’initier les étudiants aux notions de base de l’habilitation électrique.
Citation
salahbelkhiri , ,(2022-10-25); Sécurité Indudtrielle et Habilitation,Msila University,
- 2022
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2022
The Numerical Results of the Magnetic Behavior of the Thin-layers SFCL
The performance of superconducting current limiters associating the short-circuit phenomenon depends on the structure of the superconducting material envisaged and on the way of inserting it into the electrical network. The multi-layer structure, which uses thin “sandwich” layers, is found to be of interest in the search for fault current limiting power. In this paper, we present some numerical results of the magnetic behavior of superconducting fault current limiters (SFCLs). The numerical problem of this study is solved using the control volume method (CVM). The electromagnetic and thermal coupling is ensured by an alternative algorithm. To describe the relationship between the electric field and the current density inside the thin-film superconductor, we chose to use the power law model widely used in simulation work.
Citation
salah belkhiri , ,(2022), The Numerical Results of the Magnetic Behavior of the Thin-layers SFCL,AES 2022- The 8th International Conference on Antennas and Electromagnetic Systems,Marrakesh – Morocco
- 2022
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2022
Implementation of superconducting materials in the design of the synchronous machine
In this article different simulation results are presented, using a computer code based on the finite element method adopted for the resolution of the electromagnetic equations, in the case of an axisymmetric two-dimensional problem, with this code we study the variations of the different electromagnetic quantities. The superconductor was modeled as a diamagnetic material with a power law for the relationship between current density and electric field. We have however attached great importance to the comparison of the results obtained for the two machines (conventional and superconducting). Therefore, a comparative study between the two proposed models is carried out and the results are analyzed and discussed.
Citation
salah belkhiri , ,(2022), Implementation of superconducting materials in the design of the synchronous machine,2nd International Seminar on Industrial Engineering and Applied Mathematics (ISIEAM’22),SKIKDA (ALGERIA)
- 2022
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2022
Reduction of measurement error of the piezoelectric sensor
In this work, the effects of piezoelectric materials are explained and the piezoelectric sensor is described. The physical behavior of the sensor is modeled and extracted a formula relates the accuracy as a function of relative movement (vibratory displacement). The model developed is validated by simulation and by experimental tests and the appropriate choice of the damping rate makes it possible to improve the parameters of the piezoelectric sensor and to progress the vibratory analysis technique.
Citation
salah belkhiri , ,(2022), Reduction of measurement error of the piezoelectric sensor,2nd International Seminar on Industrial Engineering and Applied Mathematics (ISIEAM’22),SKIKDA (ALGERIA)
- 2022
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2022
Implantation of Coated Superconducting Materials in the Synchronous Machine for Superconducting Energy Storage
Numerical tools appear to be essential for modeling and designing devices based on superconducting materials. In this article different simulation results are presented, using a computer code based on the finite element method adopted for the resolution of the electromagnetic equations, in the case of an axisymmetric two-dimensional problem, with this code we study the variations of the different electromagnetic quantities. The second generation superconductor has been modeled as an interesting diamagnetic material as inductive pulse sources. The performance in magnetic field resistance, energy storage and thermal stability of the ribbon, known as YBCO, makes it possible to broaden its field of application. Two categories of machines have been proposed and analyzed, the first is classic and the second uses a superconducting ribbon. In addition, a comparative study between the two proposed models is carried out and the results are analyzed and discussed.
Citation
salah belkhiri , , (2022), Implantation of Coated Superconducting Materials in the Synchronous Machine for Superconducting Energy Storage, Journal of New Materials for Electrochemical Systems (JNMES), Vol:25, Issue:4, pages:277-285, INT INFORMATION & ENGINEERING TECHNOLOGY ASSOC (IIETA)
- 2022
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2022
Improvement of the vibration analysis technique by optimizing the parameters of the piezoelectric accelerometer
the vibration analysis technique by optimizing the parameters of the piezoelectric accelerometer
Citation
salah belkhiri , ,(2022), Improvement of the vibration analysis technique by optimizing the parameters of the piezoelectric accelerometer,2022 IEEE 21st International conference on Sciences and Techniques of Automatic control & computer engineering (STA'2022),Sousse, Tunisia
- 2022
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2022
Study and simulation of SAPF interconnected to a PV system based on DPC with disturbance rejection principle
Study and simulation of SAPF interconnected to a PV system based on DPC with disturbance rejection principle,
Citation
salah belkhiri , ,(2022), Study and simulation of SAPF interconnected to a PV system based on DPC with disturbance rejection principle,The First International Conference on Advanced Renewable Energy Systems ICARES’22,Bou-Ismail (Tipaza)
- 2022
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2022
Improvement of the vibration analysis technique by optimizing the parameters of the piezoelectric accelerometer
Condition-based maintenance is the most advanced form of maintenance because it is based on the actual state of the machine. It allows for better manage the interventions according to the state of the machine, its wear, or its degradation. The most widely used technique for this type of maintenance is vibration analysis because it detects the majority of faults in rotating machines. In this work, we studied the piezoelectric sensor which is considered the first element of the vibration measurement chain, and the modeling and simulation of the latter allowed us to improve their characteristics and their performance.
Citation
ZINE GHEMARI , salah belkhiri , Mohamed Razi morakchi , ,(2022), Improvement of the vibration analysis technique by optimizing the parameters of the piezoelectric accelerometer,2022 IEEE 21st international Ccnference on Sciences and Techniques of Automatic Control and Computer Engineering (STA),sousse Tunisa
- 2022
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2022
Comparative Study of Solid and Thin-Layers Superconducting Fault Current Limiters SFCL for Electrical Network Transient Stability Improvement
This document presents a comparative study of solid and thin-layers superconducting fault current limiter (SFCL) for electrical network transient stability improvement. Two applications of transient stability appraisal are presented in this article: the first shows the efficiency of the massive and thin-layers SFCL in series with a generator; the second uses SFCL installed in series with a transmission line. SFCL can only be used during the period from the fault occurrence to the fault clearing; the modeling and the effect of SFCL have been investigated to have higher benefits for the power system. In the present work, modification of the admittance matrix method is used for modeling of SFCL; critical clearing time (CCT) has been used as an index for evaluated transient stability. The results of the simulations showed the benefit of designing a superconducting current limiter from thin layers. These considerably improve not only the thermal stresses of the current limiter during the process of limiting the fault current by the significant decrease in temperature but also by its important contributions for the improvement of the transient stability of the electrical network. Thus, they can considerably extend the life of a second-generation superconducting current limiter. The modeling of the network tests will be made by PSAT under the MATLAB environment.
Citation
salah belkhiri , , (2022), Comparative Study of Solid and Thin-Layers Superconducting Fault Current Limiters SFCL for Electrical Network Transient Stability Improvement, Thanks for taking part in this research. We are very interested in better understanding how researchers think about the activities related to the Sustainable Development Goals (SDGs) and would very much appreciate your feedback., Vol:35, Issue:3, pages:679-688, Springer Nature
- 2021
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2021
Mechanical Resonator Sensor Characteristics Development for Precise Vibratory Analysis
The choice of piezoelectric material for a mechanical resonator sensor development is essential in terms of sensitivity, compatibility with the environment in which it will operate (high temperatures, environment acidity, …), complexity of the manufacturing processes implemented and costs involved. In this paper, piezoelectric detection is studied to understand mechanical resonator sensor operation principle and express it into a mathematical model. Validation by simulation tests of the developed model of measurement accuracy and measurement error as a function of relative vibration movement is performed. Applying this model, sensor characteristics and performance will be improved therefore, a new mechanical resonator sensor design can be proposed. The aim of these improvements is to obtain more accurate results and provide accurate information on vibratory level. A comparative study is conducted to show the effectiveness of the obtained results compared to the literature. These results have also demonstrated that a suitable and appropriate choice of damping rate improve the accelerometer operation and enhances the vibratory analysis technique.
Citation
salah belkhiri , , (2021), Mechanical Resonator Sensor Characteristics Development for Precise Vibratory Analysis, Sensing and Imaging, Vol:22, Issue:1, pages:40, Springer Nature
- 2020
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2020
Improvement of the Vibratory Analysis by Enhancement of Accelerometer Characteristics
In this work, the mathematical model suitable for the operating principle of the piezoelectric accelerometer is extracted then this model which connects the accuracy and the measurement error according of the frequency ratio and the damping rate is validated by simulation. The model developed makes it possible to improve the performances of the accelerometer such as precision, sensitivity and reliability as well as to propose a new conception of the latter. A comparative study is made to show the importance of our results compared to literature, these results have showed that a suitable and appropriate choice of damping ratio develops the accelerometer parameters and enhances the vibratory analysis technique.
Citation
salah belkhiri , , (2020), Improvement of the Vibratory Analysis by Enhancement of Accelerometer Characteristics, SENSOR LETTERS, Vol:18, Issue:1, pages:39-42, American Scientific Publishers
- 2020
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2020
Improvement of the Transient Stability of a 14-bus Network Using a Superconducting Fault-Current Limiter SFCL
This study presents a new strategy for implementing the superconducting fault current limiter SFCL in order not only to limit short - circuit currents but also to improve the stability of electrical networks in the presence of faults. The calculation of the impedance that the limiter must introduce into the test network at the moment of the failure is obtained from a three-dimensional computation code, developed and implemented under MATLAB environment where the formulation in magnetic vector potentials A and scalar potential Electric V is adopted to solve the electromagnetic problem and the heat diffusion formulation is adopted also to solve the thermal problem. The coupling is ensured by an alternating algorithm and the numerical resolution of the problem is ensured by the method of the finite volumes in its three-dimensional version in order to avoid certain problems of numerical convergence linked to the strongly nonlinear character of the problem to be solved. The modeling of the network tests will be made by PSAT under the environment MATLAB.
Citation
salah belkhiri , , (2020), Improvement of the Transient Stability of a 14-bus Network Using a Superconducting Fault-Current Limiter SFCL, Advanced Electromagnetics, Vol:9, Issue:2, pages:75 - 83, Advanced Electromagnetics
- 2019
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2019
The Influence of the Geometrical Properties of Bulk Superconductors on Limiting Fault Current in an Electrical Network
The behavior of the superconducting fault current limiters SFCL used in Electrical Network is largely determined by the geometry properties and the type of the bulk superconductors used. In this work we present a numerical analysis of the electromagnetic and the thermal behavior of the SFCL and the influence of geometrical properties of the bulk superconductors of rectangular shape used in an electrical network The results are obtained from a threedimensional computation code, developed and implemented under MATLAB environment where the formulation in magnetic vector potentials A and electrical scalar potential V are adopted to solve the electromagnetic problem and the heat diffusion formulation is also adopted to solve the thermal problem. The coupling is ensured by an alternating algorithm and the numerical resolution of the problem is ensured by the method of the finite volumes in its threedimensional version in order to avoid certain problems of numerical convergence linked to the strongly nonlinear character of the problem to be solved. 1. Introduction
Citation
salah belkhiri , , (2019), The Influence of the Geometrical Properties of Bulk Superconductors on Limiting Fault Current in an Electrical Network, ADVANCED ELECTROMAGNETICS, Vol:8, Issue:4, pages:136-142, ADVANCED ELECTROMAGNETICS
- 2019
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2019
Etude du comportement magnétothermique d’un SFCL massif en présence d’un court-circuit
Le présent travail visera l’étude du comportement magnétothermique d’un limiteur de courant supraconducteur de type massif, le modèle qui permet de décrire ce comportement est basé sur la résolution par la méthode des volumes finis (MVF) des équations électromagnétiques et thermique. Le couplage et les paramètres dépendant de la température sont pris en considération lors de la résolution. Les résultats sont obtenus à partir d’un code de calcul tridimensionnel, développé et implémenté sous environnement MATLAB où la formulation en potentiels vecteur magnétique A et en potentiel scalaire électrique V sont adoptées pour résoudre le problème électromagnétique et la formulation de diffusion de la chaleur est adoptée aussi pour résoudre le problème thermique.
Citation
salah belkhiri , ,(2019), Etude du comportement magnétothermique d’un SFCL massif en présence d’un court-circuit,6 ème Colloque sur L’inductique (CNI2019),biskra
- 2019
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2019
Etude du comportement magnétothermique d’un SFCL à couches minces en présence d’un court-circuit
Les performances de limiteurs de courant supraconducteurs associant le phénomène de court-circuit dépendent de la structure du matériau supraconducteur envisagé et de la façon de l’insérer au réseau électrique. La structure à plusieurs couches qui utilise des couches minces « en sandwich », se révèle intéressante dans la recherche de pouvoir de limitation du courant de défaut. Le présent article décrit les résultats des simulations du comportement magnétothermique d’un limiteur de courant de défaut conçu à partir des couches minces et une couche supraconductrice à haute température critique. Les résultats sont obtenus à partir d’un code de calcul tridimensionnel, développé et implémenté sous environnement MATLAB par la méthode des volumes finis (MVF) où la formulation en potentiels vecteur magnétique A et en potentiel scalaire électrique V sont adoptées pour résoudre le problème électromagnétique et la formulation de diffusion de la chaleur est adoptée aussi pour résoudre le problème thermique. Le couplage est assuré par un algorithme alterné. Les résultats des simulations ont montré l’intérêt de concevoir un limiteur de courant supraconducteur à partir des couches minces. Ces derniers améliorent considérablement les contraintes thermiques du limiteur de courant durant le processus de la limitation du courant de défaut par la diminution importante de la température, ainsi ils peuvent prolonger considérablement la durée de vie d’un SFCL.
Citation
salah belkhiri , ,(2019), Etude du comportement magnétothermique d’un SFCL à couches minces en présence d’un court-circuit,6 ème Colloque sur L’inductique (CNI2019),biskra
- 2019
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2019
Modeling A Superconducting Fault Current Limiter Inserted in a Nine-Bus Electrical Network
Industrial electrotechnics represents a considerable potential market for superconducting materials. Among the feasible applications, the limitation of the fault current will probably be the first to find an industrial departure. We present in this work the results of the simulations of the magnetic and thermal behavior of a fault current limiter designed from a high critical temperature superconducting layer. The results are obtained from a 3D computation code, developed and implemented under MATLAB environment where the formulation in magnetic vector potentials A and electrical scalar potential V are adopted to solve the electromagnetic problem and the heat diffusion formulation is also adopted to solve the thermal problem by the method of the finite volumes. The results showed the interest of designing a superconducting fault current limiter. The development of a simulation model that describes the behavior of the (SFCL) has also been implemented in a nine-bus network.
Citation
salah belkhiri , , (2019), Modeling A Superconducting Fault Current Limiter Inserted in a Nine-Bus Electrical Network, AMSEModelling, Measurement and Control A, Vol:92, Issue:24, pages:37-42, IIETA
- 2018
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2018
Modélisation des matériaux supraconducteurs application à la limitation de courant de défaut dans un réseau électrique à neuf (09) jeux de barres
L'électrotechnique industrielle représente pour les matériaux supraconducteurs un marché potentiel considérable. Parmi les applications faisables, la limitation des courants de défaut (court - circuit) sera probablement la première à trouver un départ industriel. Les caractéristiques mises en jeu sont tout à fait spécifiques des supraconducteurs, à savoir la grande différence existante entre un état passant à hausse densité de courant, et un état bloquant à haute résistivité, obtenu dès que le courant dépasse un seuil donné. Il est ainsi possible de protéger le réseau électrique contre toute élévation du courant au-delà d'une valeur spécifiée. Le but de ce travail est de mettre en évidence les propriétés électromagnétiques de ces matériaux et de présenter une modélisation du phénomène de limitation de courant de défaut. Le développement d’un modèle de simulation qui décrit le comportement du limiteur de courant Supraconducteur (SFCL) à été également implanté dans un réseau à neuf (09).jeux..de..barres.
Citation
salah belkhiri , ,(2018), Modélisation des matériaux supraconducteurs application à la limitation de courant de défaut dans un réseau électrique à neuf (09) jeux de barres,International Seminar in Industrial Engineering and Applied Mathematics (ISIEAM'2018),Skikda-Algeria
- 2017
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2017
MODELISATION DES PHENOMENES ELECTROMAGNETIQUE ET THERMIQUE D’UN LIMITEUR DE COURANT SUPRACONDUCTEUR DE SECONDE GENERATION
Nous présentons dans cet article les résultats des simulations du comportement magnétique et thermique d’un limiteur de courant de défaut de deuxième génération conçu à partir des couches minces et une couche supraconductrice à haute température critique. Les résultats sont obtenus à partir d’un code de calcul tridimensionnel, développé et implémenté sous environnement Matlab où la formulation en potentiels vecteur magnétique A et en potentiel scalaire électrique V sont adoptées pour résoudre le problème électromagnétique et la formulation de diffusion de la chaleur est adoptée aussi pour résoudre le problème thermique. Le couplage est assuré par un algorithme alterné et la résolution numérique du problème est assurée par la méthode des volumes finis dans sa version tridimensionnelle afin d’éviter certains problèmes de convergence numérique liée au caractère fortement non linéaire du problème à résoudre. Les résultats des simulations ont montré l’intérêt de concevoir un limiteur de courant supraconducteur à partir des couches minces. Ces dernières améliorent considérablement les contraintes thermiques du limiteur de courant durant le processus de la limitation du courant de défaut par la diminution importante de la température, ainsi ils peuvent prolongé considérablement la durée de vie d’un limiteur de courant supraconducteur de deuxième génération.
Citation
salah belkhiri , , (2017), MODELISATION DES PHENOMENES ELECTROMAGNETIQUE ET THERMIQUE D’UN LIMITEUR DE COURANT SUPRACONDUCTEUR DE SECONDE GENERATION, Courrier du Savoir, Vol:23, Issue:1, pages:161-166, université de biskra