El Bachir Lahmer (0000-0001-5435-1429)

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Biography

I am a highly skilled and motivated researcher with a Ph.D. in Mechanics and Energy from the Faculty of Sciences, Oujda, Morocco. My expertise lies in the field of numerical simulations of fluid flow and heat transfers using the lattice Boltzmann method. Through my Ph.D. research at the Laboratory of Mechanics and Energetics (LME), I have developed a strong competency in modeling and numerical simulation.

With over 5 years of research experience, I have acquired a thorough knowledge of advanced simulation tools such as Ansys-Fluent. I am passionate, dedicated, and have a rigorous work ethic that enables me to contribute significantly to research projects in mechanics and energy. Aspiring to work as a post-doctoral researcher, I demonstrate strong organizational skills and the ability to meet set deadlines. I have a positive outlook on all challenges and can work independently to achieve my goals.

Overall, I am a researcher with a strong background in numerical simulations of flows and heat transfers. I am well-positioned to contribute to any research project in mechanics and energy.

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Université Mohammed Premier Oujda: Oujda, Oriental, MA

2017-12-16 to 2022-12-17 | Ph.D. (Department of Physics)

Education

El Bachir Lahmer

https://orcid.org/0000-0001-5435-1429

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Biography

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Education and qualifications (2)

Université Mohammed Premier Oujda: Oujda, Oriental, MA

Université Mohammed Premier Oujda: OUJDA, MOROCCO, MA

Works (15)

Hybrid Runge–Kutta and lattice Boltzmann methods: Three-dimensional study of magnetohydrodynamics effect on heat exchange of electronic devices

Improvement of Heat Transfer by Natural Convection in a Three-Dimensional Square Cavity with a Heated Floor

Heat transfer enhancement of a microchannel cooler with V-shaped partitions

Three‐dimensional numerical simulation of free convection and entropy generation in a cubic cavity containing a heat source

ASSESSMENT OF CONJUGATE AND CONVECTIVE HEAT TRANSFER PERFORMANCE OVER A PARTITIONED CHANNEL WITHIN BACKWARD-FACING STEP USING THE LATTICE BOLTZMANN METHOD

3D Numerical Investigation of Free Convection using Lattice Boltzmann and Finite Difference Methods

Effect of a Detached Bi-Partition on the Drag Reduction for Flow Past a Square Cylinder

Improvement of the heat transfer quality by air cooling of three‐heated obstacles in a horizontal channel using the lattice Boltzmann method

Application of Hybrid Method Based On MRT-Lattice Boltzmann and Finite Difference to Study Heat Transfer in Three Dimensions

Effect of a Flat Plate on Drag Force Reduction and Heat Transfer Characteristics Around Three Heated Square Obstacles

Lattice Boltzmann Simulation of the Three-dimensional Natural Convection with a Regularly Heated Cavity Slab

Numerical Study of the Drag Reduction and the Electronics Composites Cooling by using the Three Flat Plates

Numerical investigation of convective heat transfer in fluid flow past a tandem of triangular and square cylinders in channel

Investigation of laminar flow and convective heat transfer in a constricted channel based on double MRT-LBM

Natural convection heat transfer in a square enclosure with an inside hot block

Peer review (5 reviews for 1 publication/grant)