Fluid Mechanics

Fluid mechanics is the cornerstone of our knowledge of the flow of different types of fluids (air, water, nanofluids, Blood etc.) of small/large viscosity under circumstance of interest in many engineering, science, and medical science applications. The study of the fluid flow over (across/around) the several bodies (heated or cooled) within the boundary layer has clarified many complicated problems in hydrodynamics, aerodynamics, and medical sciences. The heat and mass transfer between a solid body, and a liquid or gaseous flow is a problem whose consideration involves the science motion of fluid mechanics. Steam function, flow velocity, temperature, and concentration in the boundary layer are computed by analytical and numerical methods.

INTEREST(S)

Casson fluid flowBoundary layer flow Similarity solutionHeat and mass transfersMagnetohydrodynamics flow Nano fluid flowFerrohydrodynamic (FHD) flow

MODERATOR

PROF. DR. KH. ABDUL MALEQUE

VISION

The vision of fluid mechanics is to enhance our understanding of how liquids and gases move and interact. By studying the principles governing fluid behavior, the goal is to develop practical insights that can be applied to improve engineering designs, optimize systems, and address real-world challenges. Ultimately, the vision is to harness this understanding for advancements in technology, environmental sustainability, and various fields, leading to more efficient and innovative solutions in our daily lives. Finally, the domain of fluid mechanics attempts to cover the research gaps of our Mathematics department as well as the university.

MISSION

Fluid mechanics is the cornerstone of our knowledge of the flow of different types of fluids (air, water, nanofluids, Blood etc.) of small/large viscosity under circumstance of interest in many engineering, science, and medical science applications. The mission of fluid mechanics is to unravel the mysteries of how liquids and gases flow, and it seeks to solve real-world problems, from optimizing fuel efficiency in airplanes to enhancing water resource management and improve the behavior of fluids for practical applications across various industries. The domain of fluid mechanics aims to understand the complexity of fluid behavior by doing groundbreaking studies that will advance in the field of fluid mechanics.

MEMBER(S)

DR. FATEMA TUZ ZOHRA
DR. FATEMA TUZ ZOHRA
AYESHA SIDDIQUA
AYESHA SIDDIQUA
DR. MOHAMMED JASHIM UDDIN
DR. MOHAMMED JASHIM UDDIN
DR. DILRUBA YASMIN
DR. DILRUBA YASMIN
PROF. DR. KH. ABDUL MALEQUE
PROF. DR. KH. ABDUL MALEQUE
SHANTA DEB
SHANTA DEB
PRODIP KUMAR GHOSE
PRODIP KUMAR GHOSE
TANZIA ZERIN KHAN
TANZIA ZERIN KHAN
DR. SALAIKA PARVIN
DR. SALAIKA PARVIN
MD. MEHEDI HASAN
MD. MEHEDI HASAN
Mathematical modeling for bio-nanofluid simulation using multiphase model approach

IN PROGRESS

Effects of nonlinear thermal radiation and constant electric field on MHD nanofluid heat and mass transfer flow over a vertical plate with activation energy”

IN PROGRESS

Effects Nonlinear thermal radiation on three-dimensional combined convective FHD flow over a rectangular surface with nonlinear Ferro-viscosity parameter

IN PROGRESS

Hall current and uniform electric field effects on MHD non-Newtonian nanofluid flow due to a rotating disk with Nonlinear thermal radiation

IN PROGRESS

Combined Fluid and Ferrofluid Buoyancy Force, Heat Absorption and Non-linear Ferro-viscosity Effects on Mixed Convective Ferro- hydrodynamics Fluid Flow in Orthogonal Porous Surfaces

IN PROGRESS

Chemical Reaction and variable conductivity effects on unsteady free convection MHD nanofluid heat and mass transfer flow with activation energy

This study investigates the complex interactions among chemical processes, changeable conductivity, and magnetohydrodynamics (MHD) in the context of free convection magnetohydrodynamics (MHD)nanofluid...

Three-dimensional combined convective FHD nano fluid flow over a rectangular surface in presence of thermal radiation and variable viscosity

A combined convective nano Ferrohydrodynamics (FHD) of three dimensional boundary layer over an inclined vertical rectangular plane perpendicular to the horizontal z -axis is discussed theoretically f...

Effects of nonlinear thermal radiation and electric field on MHD nanofluid heat and mass transfer flow with activation energy.

Investigations of nonlinear thermal radiation, electric field, chemical reaction, as well as viscous dissipation on the flow of MHD natural convection incompressible nano-fluid along a vertical flat ...

Natural convective flow of CuO–Water nanofluid in a square-shaped cavity with an inner corrugated circular cylinder embedded in a porous medium

The current study deals with numerical simulation to analyze the effect of magnetohydrodynamic (MHD) forces on natural convection within a square enclosure including an inner corrugated circular cylin...

Computer simulation of nano-assisted microwave thermal therapy for cancerous biological tissue

Microwave ablation has becoming more popular as an alternative to hepatic resection because it has a better chance of survival overall than both proton beam therapy and external beam radiation therapy...