Mohammad Mehdi Rashidi

What is he best known for?

The fields of study he is best known for:

• Thermodynamics
• Quantum mechanics
• Mechanics

His primary areas of study are Nusselt number, Mechanics, Nanofluid, Thermodynamics and Heat transfer. His study in Nusselt number is interdisciplinary in nature, drawing from both Natural convection, Thermal conductivity and Partial differential equation. His Mechanics study combines topics in areas such as Homotopy analysis method and Classical mechanics.

His studies deal with areas such as Sherwood number, Lewis number and Entropy as well as Nanofluid. His work in the fields of Thermodynamics, such as Thermal radiation, Mass transfer and Buoyancy, overlaps with other areas such as Heat generation and Stream function. His Heat transfer study integrates concerns from other disciplines, such as Volume fraction, Internal heating and Richardson number.

His most cited work include:

• Entropy generation in steady MHD flow due to a rotating porous disk in a nanofluid (484 citations)
• Forced convection heat transfer in a semi annulus under the influence of a variable magnetic field (302 citations)
• Forced convection heat transfer in a semi annulus under the influence of a variable magnetic field (302 citations)

What are the main themes of his work throughout his whole career to date?

Mohammad Mehdi Rashidi mainly investigates Mechanics, Thermodynamics, Nanofluid, Heat transfer and Nusselt number. His research in Mechanics intersects with topics in Magnetohydrodynamics, Classical mechanics and Nonlinear system. His Nonlinear system study combines topics in areas such as Flow, Partial differential equation and Boundary value problem.

In Nanofluid, he works on issues like Reynolds number, which are connected to Forced convection. Mohammad Mehdi Rashidi combines subjects such as Thermal conductivity, Lattice Boltzmann methods, Porous medium and Boundary layer with his study of Heat transfer. Mohammad Mehdi Rashidi regularly ties together related areas like Thermal radiation in his Nusselt number studies.

He most often published in these fields:

• Mechanics (68.20%)
• Thermodynamics (44.96%)
• Nanofluid (41.45%)

What were the highlights of his more recent work (between 2017-2021)?

• Mechanics (68.20%)
• Nanofluid (41.45%)
• Heat transfer (38.16%)

In recent papers he was focusing on the following fields of study:

His primary areas of investigation include Mechanics, Nanofluid, Heat transfer, Nusselt number and Natural convection. The various areas that Mohammad Mehdi Rashidi examines in his Mechanics study include Magnetohydrodynamics and Nonlinear system. Nanofluid is a subfield of Thermodynamics that he tackles.

His study in Heat transfer is interdisciplinary in nature, drawing from both Fluid dynamics, Baffle, Lattice Boltzmann methods and Laminar flow. Mohammad Mehdi Rashidi is involved in the study of Nusselt number that focuses on Hartmann number in particular. The study incorporates disciplines such as Thermal conductivity and Heat sink in addition to Natural convection.

Between 2017 and 2021, his most popular works were:

• Numerical study of MHD nanofluid natural convection in a baffled U-shaped enclosure (88 citations)
• Forced convection of nanofluids in an extended surfaces channel using lattice Boltzmann method (84 citations)
• Influence of a uniform transverse magnetic field on the thermo-hydrodynamic stability in water-based nanofluids with metallic nanoparticles using the generalized Buongiorno’s mathematical model (82 citations)

In his most recent research, the most cited papers focused on:

• Quantum mechanics
• Thermodynamics
• Mechanics

His main research concerns Mechanics, Nanofluid, Nusselt number, Heat transfer and Lattice Boltzmann methods. Mohammad Mehdi Rashidi has included themes like Magnetohydrodynamics and Nonlinear system in his Mechanics study. His Nonlinear system study incorporates themes from Boundary value problem, Mathematical analysis and Ordinary differential equation.

His work deals with themes such as Flow and Convection, which intersect with Nusselt number. His research investigates the connection between Heat transfer and topics such as Hartmann number that intersect with problems in Thermal conductivity. His Lattice Boltzmann methods course of study focuses on Forced convection and Reynolds number, Laminar flow and Convective heat transfer.

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