Jihen Majdoubi scite author profile

The aim of this article is to study time dependent rotating single-wall electrically conducting carbon nanotubes with aqueous suspensions under the influence of nonlinear thermal radiation in a permeable medium. The impact of viscous dissipation is taken into account. The basic governing equations, which are in the form of partial differential equations (PDEs), are transformed to a set of ordinary differential equations (ODEs) suitable for transformations. The homotopy analysis method (HAM) is applied for the solution. The effect of numerous parameters on the temperature and velocity fields is explanation by graphs. Furthermore, the action of significant parameters on the mass transportation and the rates of fiction factor are determined and discussed by plots in detail. The boundary layer thickness was reduced by a greater rotation rate parameter in our established simulations. Moreover, velocity and temperature profiles decreased with increases of the unsteadiness parameter. The action of radiation phenomena acts as a source of energy to the fluid system. For a greater rotation parameter value, the thickness of the thermal boundary layer decreases. The unsteadiness parameter rises with velocity and the temperature profile decreases. Higher value of augments the strength of frictional force within a liquid motion. For greater and ; the heat transfer rate rises. Temperature profile reduces by rising values of .

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A review study on blood in human coronary artery: Numerical approach

Pandey

Kumar

Majdoubi

et al. 2020

Computer Methods and Programs in Biomedicine

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[Retracted] A Novel Multicriteria Decision‐Making Approach for Einstein Weighted Average Operator under Pythagorean Fuzzy Hypersoft Environment

Sunthrayuth

Jarad

Majdoubi

et al. 2022

Journal of Mathematics

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The experts used the Pythagorean fuzzy hypersoft set (PFHSS) in their research to discourse ambiguous and vague information in decision-making processes. The aggregation operator (AO) plays a prominent part in the sensitivity of the two forefront loops and eliminates anxiety from that perception. The PFHSS is the most influential and operative extension of the Pythagorean fuzzy soft set (PFSS), which handles the subparameterized values of alternatives. It is also a generalized form of Intuitionistic fuzzy hypersoft set (IFHSS) that provides better and more accurate assessments in the decision-making (DM) process. In this work, we present some operational laws for Pythagorean fuzzy hypersoft numbers (PFHSNs) and then formulate Pythagorean fuzzy hypersoft Einstein weighted average (PFHSEWA) operator based on developed operational laws. We discuss essential features such as idempotency, boundedness, and homogeneity for the proposed PFHSEWA operator. Furthermore, a DM approach has been developed based on the built-in operator to address multicriteria decision-making (MCDM) issues. A numerical case study of decision-making problems in real-life agricultural farming is considered to validate the settled technique’s dominance and applicability. The consequences display that the planned model is more operative and consistent to handle inexact data based on PFHSS.

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Significance of Arrhenius activation energy in flow and heat transfer of tangent hyperbolic fluid with zero mass flux condition

Kumar¹,

Baslem

Prasannakumara

et al. 2020

Microsyst Technol

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Using the Mesh Thesaurus to Index a Medical Article: Combination of Content, Structure and Semantics

Majdoubi¹,

Tmar²,

Gargouri³

2009

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Jihen Majdoubi

Impact of Nonlinear Thermal Radiation and the Viscous Dissipation Effect on the Unsteady Three-Dimensional Rotating Flow of Single-Wall Carbon Nanotubes with Aqueous Suspensions

A review study on blood in human coronary artery: Numerical approach

[Retracted] A Novel Multicriteria Decision‐Making Approach for Einstein Weighted Average Operator under Pythagorean Fuzzy Hypersoft Environment

Significance of Arrhenius activation energy in flow and heat transfer of tangent hyperbolic fluid with zero mass flux condition

Using the Mesh Thesaurus to Index a Medical Article: Combination of Content, Structure and Semantics

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