FARRAH Hamrit
حمريط فارح
farrah.hamrit@univ-msila.dz
06 74 66 26 76
- BASE COMMON ST Departement ST
- Faculty of Technology
- Grade MCA
About Me
DOCTORAT. in UNIVERSTIE DE CONSTANTINE
Research Domains
GENIE MECANIQUE, ENERGIE RENOUVLABLE, STRUCTURE, MATERIAUX
LocationMsila, Msila
Msila, ALGERIA
Code RFIDE- 2019
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master
Eloualhi Mahroug
Amélioration des caractéristiques des métaux utilisant la projection thermique
- 01-01-2018
- 01-01-2006
- 12-06-1996
- 1970-09-07 00:00:00
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FARRAH Hamrit birthday
- 2023-05-22
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2023-05-22
Synthesis, morphological, dielectric studies and ionic conductivity of a sodium cerium diphosphate compound
A NaCeP2O7 compound was successfully synthesized by a high-temperature reaction with the solid-state method. Analyzing the XRD pattern, of the studied compound, confirms the orthorhombic phase with the Pnma space group. The examination of SEM images reveals that the majority of grains are around 500 to 900 nm with a uniform distribution. As for the EDXS analysis, all chemical elements were detected and found in the appropriate ratio. The curves of temperature-dependent imaginary modulus M′′ versus angular frequency reveal the presence of one peak at each temperature, proving that the dominant contribution is associated with the grains. The frequency dependence of the conductivity of alternating current is explained using Jonscher's law. The close values of the activation energies obtained from the jump frequency and extracted from the dielectric relaxation of the modulus spectra, as well as from the continuous conductivity imply that the transport takes place by the Na+ ions hopping mechanism. The charge carrier concentration in the title compound has been evaluated and shown to be independent of temperature. The exponent s increases with the increase in temperature; this behavior proves that the non-overlapping small polaron tunneling (NSPT) is the appropriate conduction mechanism model.
Citation
Farrah HAMRIT , Djedid TALOUB , Rabiaa Chtourou, Imen Gharbi, Abderrazek Oueslati, , (2023-05-22), Synthesis, morphological, dielectric studies and ionic conductivity of a sodium cerium diphosphate compound, RSC Advances, Vol:22, Issue:13, pages:15356-15365, The Royal Society of Chemistry
- 2021
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2021
Cours et TP Physique 1
- 2020
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2020
TP PHY 2
Les objectifs TP S1 et S2 de physique science technologie. Minimisation des erreurs au maximum pour rapprocher a des grandeurs real. Utilisations des instruments de calcules de différents phénomènes physiques, (chute libre, choc élastique et inélastique, loi de Newton, pendule de torsion…). Interprétation des résultats.
Citation
FarrahHAMRIT , ,(2020); TP PHY 2,UNIVERSITE OF ;SILQ,
- 2020
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2020
TP PHY 2 TRQNSFOR;QTEUR
Effectuer la mesure de courant, de tension et de résistance à laide d’un multimètre. Calculer la résistance à l’aide de la loi d’Ohm Assembler le montage de circuits électriques simples et mixtes. Déterminer la résistance équivalente d’un circuit mixte. Vérifier la loi des nœuds et la loi des mailles Mettre en évidence l’utilité et l’utilisation du pont de Wheatstone te savoir des métaux à partir la mesure de la résistivité.
Citation
FarrahHAMRIT , ,(2020); TP PHY 2 TRQNSFOR;QTEUR,UNIVERSITE OF MSILA,
- 2019
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2019
Unsteady investigation of the heat ventilation in a box prototype
This paper investigates the unsteady state of the heat ventilation in a box prototype with two holes. The CFD simulations were conducted using ANSYS Fluent 17.0 software, which solves the Navier-Stokes equations in conjunction with the standard k-ω turbulence model and by a finite volume discretization method. The presented results, consisting of the distribution of the velocity fields, the temperature, the total pressure and the turbulent characteristics, are very useful to determine the time required for the heating operation and to shrink the energy consumption of the buildings. The comparison between the founded results affirms that the heating time presents a straight effect on the velocity fields. However, for the temperature, the box prototype requires more time and more energy to warm up. In our application, we confirm that the duration of 30 s is sufficient to allow the heating of the box prototype. Indeed, the numerical results compared using the experimental data developed in our laboratory confirms the validity of the numerical method. The good agreements validate the considered computational method.
Citation
Hani BENGUESMIA , Farrah HAMRIT , badis.bakri@univ-msila.dz, Ahmed Ketata, Slah Driss, Zied Driss, , (2019), Unsteady investigation of the heat ventilation in a box prototype, International Journal of Thermal Sciences, Vol:135, Issue:0, pages:13, Elsevier
- 2019
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2019
Experimental study of pollution and simulation on insulators using COMSOL® under AC voltage
The flashover of pollution, observed on the insulators used in high voltage transmission, is one of the most important power transmission stakes. It is a very complex problem due to several factors including the modelling difficulties of complex shapes of insulators, different pollution densities at different regions, non-homogeneous pollution distribution on the insulator surface and unknown effect of humidity on the pollution. In the literature, some static and dynamic models have been developed by making some assumptions and omissions to predict the flashover voltages of polluted insulators. This paper aims to experimentally analyse the flashover process and simulation of the distributions of the potential and the electric field under 50 Hz applied voltage on a real model simulating the 175CTV outdoor insulators largely used by the Algerian Company of Electricity and Gas (SONELGAZ). This real model is studied under non-polluted (distilled water), and polluted (distilled water and sand) environments. The simulations were carried out by using the COMSOL multiphysics software. This program uses the finite element method to solve the partial differential equations that describe the field. Experimental results made in the laboratory and simulation results are original and found to be congruent.
Citation
Hani BENGUESMIA , Farrah HAMRIT , badis.bakri@univ-msila.dz, Saad khadar, Nassima M'ziou, , (2019), Experimental study of pollution and simulation on insulators using COMSOL® under AC voltage, Diagnostyka, Vol:20, Issue:3, pages:9, The Polish Society of Technical Diagnostics (PSTD)
- 2019
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2019
Improvement of the steel surface by APS plasma coatings
The thermal projection technique is a method of surface cover permitting to get deposits while putting in œuvre a large specter of processes (projection to the flame, to the torchlight to plasma of bow soufflé, etc.) and of materials (metallic, ceramic alloys, polymers and composite materials, etc.). It permits to achieve coatings of several score micrometers to some millimeters. This process consists in heating and to melt the material to put down, presented under the shape of gunpowder or a thread, thanks to a source to high energy (electric or combustion). The melted particle transfer or semi - fondues take place with the help of a gas, the most often hot. The melted gunpowder and accelerated comes to collapse then then to solidify on the surface of the substratum
Citation
Farrah HAMRIT , ,(2019), Improvement of the steel surface by APS plasma coatings,THE 5 INTERNATIONAL CONFERENCE ON MECHANICS AND ENERGY ICME 2019,Monastir tunis
- 2019
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2019
TP PHY 1
The TP S1 and S2 objectives of physics science technology. Minimization of errors to the maximum to approximate to real quantities. Uses of instruments for calculating different physical phenomena (free fall, elastic and inelastic shock, Newton's law, torsion pendulum, etc.). Results interpretation.
Citation
FarrahHAMRIT , ,(2019); TP PHY 1,UNIVERSITE OF ;SILQ,
- 2018
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2018
Study of the Heat Ventilation in a Box Prototype With the k-ω Turbulence Model
The use of efficient systems in order to reduce the energy consumption presents in nowadays a great challenge. Indeed, the use of the renewable energy in the heat ventilation of building application becomes very crucial. In this work, we are interested on the study of the turbulent flow in a box prototype. In this prototype, a solar system is integrated to supply the hole inlet with a hot air. The numerical model is based on the resolution of the Navier-Stokes equations in conjunction with the standard k-ω turbulence model. These equations were solved by a finite volume discretization method using the commercial CFD code ANSYS Fluent 17.0. To accurate the numerical results, the meshing effect on the numerical results was studied to choose the optimal mesh with a minimum calculated time. The numerical results were compared using anterior results developed in our laboratory. The good agreements confirm the validity of the numerical method.
Citation
Hani BENGUESMIA , Farrah HAMRIT , badis.bakri@univ-msila.dz, Slah Driss, Ahmed Ketata, Zied Driss, , (2018), Study of the Heat Ventilation in a Box Prototype With the k-ω Turbulence Model, Transylvanian Review, Vol:26, Issue:20, pages:13, Transylvanian Review (Lilly Fornestley)
- 2018
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2018
Analysis of mechanical structures using plate finite element method under different boundary conditions
The mechanical discrete or continuum structures are actually of great importance in the application field of contemporary modern industry. However, during their life time these structures are often subjected to considerable external stresses or to high amplitudes of vibrations which can cause them largedeformations and internal stresses which can cause them internal cracking or even their total destruction. In order to avoid these types of problems, the concept of static and dynamic analysis of these structures is recommended, and due to the complexity of their shape and size, the finite element method is the most used. The latter is currently recognized as a very powerful technique for the static and dynamic analysis of discrete or continuous structures of complicated form applied in the field of mechanics, aeronautics, civil engineering, maritime or robotics. Consequently, the calculation and dimensioning of these mechanical systems by the finite element method plays an important role at the service of the industry for possible sizing and prediction of their lifetime. Our work consists of static and dynamic analysis of two-dimensional discrete and continuous mechanical systems using the finite element method based on the main elements of bars, beams and plates, under the effect of external excitations with different boundary conditions. The discrete structures considered are two-dimensional in metallic framework interconnected to the nodes by welding, riveting or bolted under various boundary conditions. Their elements are modeled comparatively by bar elements and beam elements, while for continuous structures the elements are rectangular thin plates with different boundary conditions. The excitation forces are based on periodic, random or impulsive forces and a numerical solution by development of a program to describe the behavior of these structures is realized. The mass and stiffness matrices of all the structures are determined respectively by assembling the bars, beam and plate elements based on the kinetic and deformation energy for each element. Thedisplacements, the node reactions and the axial forces in all the elements as well as the transverse stresses and the eigenvalues of the structures under different boundary conditions were also calculated and good results were obtained compared to those obtained using other software already existing. In fact, analysis using the finite element method will allow the proper dimensioning and design of complex industrial mechanical structures according to different boundary conditions, their internal loading and their vibratory level.
Citation
Farrah HAMRIT , , (2018), Analysis of mechanical structures using plate finite element method under different boundary conditions, DIAGNOSTYKA, Vol:19, Issue:2, pages:9, SCOPUS
- 2018
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2018
THEORETICAL INVESTIGATION OF STRUCTURAL AND ELECTRONIC OF LaPtBi HEUSLER COMPOUND.
An ab initio study was performed using the full-potential linearized augmented plane wave method (FP-LAPW) within the framework of density functional theory (DFT), with both approximations: generalised gradient approximation GGA for the structural proprieties calculation and electronic properties we have used both approximations GGA (Generalized Gradient Approximation) and LDA (local Density Approximation) to improve the results of the compound Heusler LaPtBi which have an technological interest in the spintronic field. The calculation has showed that LaPtBi compound have a half metal ferromagnetic characterisation with a band gap in one direction of spin. The results in this work are predictive values because of the absence of available data.
Citation
Farrah HAMRIT , ,(2018), THEORETICAL INVESTIGATION OF STRUCTURAL AND ELECTRONIC OF LaPtBi HEUSLER COMPOUND.,THE 5 INTERNATIONAL CONFERENCE ON MECHANICS AND ENERGY ICME 2019,Monastir tunis