Skip to main content

Research Repository

Advanced Search

Ms Sireetorn Kuharat's Outputs (45)

CFD Modelling of Combustion and NOX Production in a Propulsion Duct with Aspect Ratio Effects (2024)
Book Chapter
Beg, O., Morand, T., Beg, T., Kuharat, S., Vasu, B., Leonard, H., & Burby, M. (2024). CFD Modelling of Combustion and NOX Production in a Propulsion Duct with Aspect Ratio Effects. In Eco-Materials and Green Energy for a Sustainable Future (188-220). Boca Raton, USA: CRC Press. https://doi.org/10.1201/9781003473749-11

Combustion simulation is fundamental to numerous propulsion systems including gas turbine engines, chemical rocket propulsion etc. It is a complex area involving viscous fluid dynamics, heat transfer, combustion chemistry and flame dynamics. In the p... Read More about CFD Modelling of Combustion and NOX Production in a Propulsion Duct with Aspect Ratio Effects.

A review on blood flow simulation in stenotically diseased arteries (2024)
Journal Article
Shankar, G., Tripathi, D., Deepalakshmi, P., Anwar Bég, O., Kuharat, S., & Siva, E. P. (in press). A review on blood flow simulation in stenotically diseased arteries. Critical Reviews in Biomedical Engineering,

Heart diseases which can lead to stroke and heart attacks, affect numerous individuals worldwide due to disruptions in blood flow within the body. A common underlying cause for such hemodynamic disorders is a constriction in the artery, which is know... Read More about A review on blood flow simulation in stenotically diseased arteries.

Micropolar eyring-powell magneto-convection flow from a revolving cone with hall current and ohmic heating effects (2024)
Journal Article
Abdul Gaffar, S., Anwar Bég, O., Bég, T. A., Kuharat, S., Anjum, A., & Reddy, P. R. (in press). Micropolar eyring-powell magneto-convection flow from a revolving cone with hall current and ohmic heating effects. Numerical Heat Transfer, Part A Applications,

As a simulation of electromagnetic rheological spin coating flow, a theoretical study is conducted on the nonlinear, steady-state boundary layer flow and heat transfer of an incompressible Eyring-Powell non-Newtonian micropolar fluid about a spinning... Read More about Micropolar eyring-powell magneto-convection flow from a revolving cone with hall current and ohmic heating effects.

Computational hemodynamic simulation of non-Newtonian fluid-structure interaction in a curved stenotic artery (2024)
Journal Article
Kuharat, S., Chaudhry, M. A., Beg, O. A., & Bég, T. A. (2024). Computational hemodynamic simulation of non-Newtonian fluid-structure interaction in a curved stenotic artery. #Journal not on list, 8(4), 226-256. https://doi.org/10.26701/ems.1492905

This paper focuses on deploying Computational Fluid Dynamics (CFD) and Fluid-Structure Interaction (FSI) to investigate key characteristics associated with Cardiovascular Diseases (CVDs), a leading cause of global mortality. CVDs encompass various he... Read More about Computational hemodynamic simulation of non-Newtonian fluid-structure interaction in a curved stenotic artery.

Meshfree Radial Basis Function Pseudo-Spectral Computation of Nano-fuels in Triple-layer Magnetic Interfacial Flow (2024)
Book Chapter
Beg, O., Chandrawat, R. K., Bhatia, G. S., Kumar, D., & Kuharat, S. (in press). Meshfree Radial Basis Function Pseudo-Spectral Computation of Nano-fuels in Triple-layer Magnetic Interfacial Flow. In Eco-Materials and Green Energy for a Sustainable Future (149-187). USA: Routledge. https://doi.org/10.1201/9781003473749

Nano-energetic materials, which release high amounts of energy at the nanoscale, have shown great potential in thermal management and energy storage. We explore the potential of using CuO,Al¬_2 O_3,Ag,and TiO_2 nanoparticles to improve heat transfer... Read More about Meshfree Radial Basis Function Pseudo-Spectral Computation of Nano-fuels in Triple-layer Magnetic Interfacial Flow.

TWO-WAY FLUID-STRUCTURE INTERACTION HYDROELASTIC SIMULATION OF VIBRATING MEMBRANES WITH APPLICATIONS IN MARINE RENEWABLE WAVE POWER (2024)
Book Chapter
Beg, O., Kuharat, S., Beg, T., Pattison, J., Kadir, A., Leonard, H., & Jouri, W. (in press). TWO-WAY FLUID-STRUCTURE INTERACTION HYDROELASTIC SIMULATION OF VIBRATING MEMBRANES WITH APPLICATIONS IN MARINE RENEWABLE WAVE POWER. . USA: Taylor & Francis (Routledge). https://doi.org/10.1201/9781003473749

Modern ocean engineering is developing quickly and floating cities, new energy harvesting methods and novel
marine systems are unfolding in the 21st century. The intelligent design of many such systems is exploiting
“compliant” structures which d... Read More about TWO-WAY FLUID-STRUCTURE INTERACTION HYDROELASTIC SIMULATION OF VIBRATING MEMBRANES WITH APPLICATIONS IN MARINE RENEWABLE WAVE POWER.

COMPUTATIONAL HEMODYNAMIC NON-NEWTONIAN FLUID-STRUCTURE INTERACTION SIMULATION IN A CURVED STENOTIC ARTERY (2024)
Journal Article
Kuharat, S., Chaudhry, M. A., Anwar Bég, O., & Bég, T. A. (in press). COMPUTATIONAL HEMODYNAMIC NON-NEWTONIAN FLUID-STRUCTURE INTERACTION SIMULATION IN A CURVED STENOTIC ARTERY. #Journal not on list,

This paper focuses on deploying Computational Fluid Dynamics (CFD) and Fluid-Structure Interaction (FSI) to investigate key characteristics associated with Cardiovascular Diseases (CVDs), a leading cause of global mortality. CVDs encompass various he... Read More about COMPUTATIONAL HEMODYNAMIC NON-NEWTONIAN FLUID-STRUCTURE INTERACTION SIMULATION IN A CURVED STENOTIC ARTERY.

Heat transfer with electroosmotic flow from a stretching sheet: Factorial plot analysis using a response surface methodology (RSM) approach (2024)
Journal Article
Prakash, J., Tripathi, D., Bég, O. A., & Kuharat, S. (in press). Heat transfer with electroosmotic flow from a stretching sheet: Factorial plot analysis using a response surface methodology (RSM) approach. Numerical Heat Transfer, Part B Fundamentals,

Motivated by novel developments in electro-osmotic coatings, a theoretical and numerical investigation is conducted to evaluate the effects of zeta potential on the electroosmotic flow of a viscous ionic fluid along a stretching surface. The governin... Read More about Heat transfer with electroosmotic flow from a stretching sheet: Factorial plot analysis using a response surface methodology (RSM) approach.

Computational hemodynamics of Sisko-blood doped with gold and silver nanoparticles in a stenosed artery with porous walls (2024)
Journal Article
Zuberi, H., Lal, M., Deo, S., Saxena, A., Anwar Bég, O., Kuharat, S., & Chamkha, A. (in press). Computational hemodynamics of Sisko-blood doped with gold and silver nanoparticles in a stenosed artery with porous walls. Numerical Heat Transfer, Part A Applications,

Motivated by the increasing popularity in the deployment of biocompatible nanoparticles in treatments for atherosclerosis, a mathematical model is constructed to replicate the influence of silver and gold nanoparticles on blood flow through porous-wa... Read More about Computational hemodynamics of Sisko-blood doped with gold and silver nanoparticles in a stenosed artery with porous walls.

Computation of rheological nanofluid coating boundary layer transport with convective wall heating (2024)
Journal Article
Uddin, M. J., Bég, O. A., & Kuharat, S. (in press). Computation of rheological nanofluid coating boundary layer transport with convective wall heating. Proceedings of the Institution of Mechanical Engineers, Part N: Journal of Nanomaterials, Nanoengineering and Nanosystems, https://doi.org/10.1177/23977914241270892

Non-Newtonian nanofluids offer significant advantages in thermal enhancement in a variety of applications including in numerous areas of engineering including solar collectors and nano-coating manufacturing processes. When combined with porous media,... Read More about Computation of rheological nanofluid coating boundary layer transport with convective wall heating.

Robust finite difference scheme for the magnetohydrodynamics natural convection in a quadrant-shaped enclosure with radiation effect (2024)
Journal Article
Venkatadri, K., Saravana, R., Anwar Bég, O., Kuharat, S., & Leonard, H. J. (in press). Robust finite difference scheme for the magnetohydrodynamics natural convection in a quadrant-shaped enclosure with radiation effect. European Physical Journal Plus,

Modern hybrid fuel cells and electromagnetic batch processes feature many complex nonlinear phenomena that can be investigated using advanced numerical methods. Motivated by these applications, the main focus of the present study is to examine the hy... Read More about Robust finite difference scheme for the magnetohydrodynamics natural convection in a quadrant-shaped enclosure with radiation effect.

Computation of SWCNT/MWCNT-doped thermo-magnetic nano-blood boundary layer flow with non-Darcy, chemical reaction, viscous heating and Joule dissipation effects (2024)
Journal Article
Nasir, M., Anwar Bég, O., Al-Dossari, M., Sarhan, N., Kuharat, S., Waqas, M., …Daminova, G. (in press). Computation of SWCNT/MWCNT-doped thermo-magnetic nano-blood boundary layer flow with non-Darcy, chemical reaction, viscous heating and Joule dissipation effects. Diamond and Related Materials,

CNTs have been shown to exhibit exceptional electrical and thermal conductivities, chemical and mechanical stability and physiochemical reliability in wide-ranging applications covering biomedicine, energy and aerospace. Motivated by emerging applica... Read More about Computation of SWCNT/MWCNT-doped thermo-magnetic nano-blood boundary layer flow with non-Darcy, chemical reaction, viscous heating and Joule dissipation effects.

Galerkin fem simulation of natural convection in an annular porous medium-based solar collector system (2024)
Journal Article
Venkatadri, K., Anwar Bég, O., Bég, T. A., & Kuharat, S. (2024). Galerkin fem simulation of natural convection in an annular porous medium-based solar collector system. International Journal of Ambient Energy, 45(1), https://doi.org/10.1080/01430750.2024.2358078

Motivated by simulating emerging hybrid designs in annular solar direct absorber collectors, a theoretical and numerical study of natural convection in an annular hybrid porous medium solar collector is presented. An aspect ratio of 2 is considered w... Read More about Galerkin fem simulation of natural convection in an annular porous medium-based solar collector system.

Numerical study of electroconductive non-Newtonian hybrid nanofluid flow from a stretching rotating disk with a Cattaneo–Christov heat flux model (2024)
Journal Article
Salawu, S. O., Anwar Bég, O., Usman, Bég, T. A., Kuharat, S., & Shamshuddin, M. (in press). Numerical study of electroconductive non-Newtonian hybrid nanofluid flow from a stretching rotating disk with a Cattaneo–Christov heat flux model. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, https://doi.org/10.1177/09544089241258019

Motivated by emerging technologies in smart functional nanopolymeric coating systems in pharmaceutical and robotics applications, the convective heat transfer characteristics in swirl coating with a magnetic hybrid power-law rheological nanofluid pol... Read More about Numerical study of electroconductive non-Newtonian hybrid nanofluid flow from a stretching rotating disk with a Cattaneo–Christov heat flux model.

Mathematical Modeling of Oxygen Diffusion from Capillary to Tissues during Hypoxia through Multiple Points Using Fractional Balance Equations with Memory. (2024)
Journal Article
Srivastava, V., Tripathi, D., Srivastava, P. K., Kuharat, S., & Bég, O. A. (2024). Mathematical Modeling of Oxygen Diffusion from Capillary to Tissues during Hypoxia through Multiple Points Using Fractional Balance Equations with Memory. Critical Reviews in Biomedical Engineering, 52(6), 1-13. https://doi.org/10.1615/CritRevBiomedEng.2024053461

The diffusion of oxygen through capillary to surrounding tissues through multiple points along the length has been addressed in many clinical studies, largely motivated by disorders including hypoxia. However relatively few analytical or numerical st... Read More about Mathematical Modeling of Oxygen Diffusion from Capillary to Tissues during Hypoxia through Multiple Points Using Fractional Balance Equations with Memory..

Modeling and Analysis of MHD Free Convective Thermo-Solutal Transport in Casson Fluid Flow with Radiative Heat Flux (2024)
Journal Article
Sowmiya, C., Rushi Kumar, B., Anwar Bég, O., & Kuharat, S. (2024). Modeling and Analysis of MHD Free Convective Thermo-Solutal Transport in Casson Fluid Flow with Radiative Heat Flux. Journal of Thermal Analysis and Calorimetry, https://doi.org/10.1007/s10973-024-13115-6

This research paper presents a novel mathematical model aimed at exploring practical applications in oscillating MHD generators and near-wall flows using Casson fluid. The purpose of this study is to develop a mathematical model that specifically add... Read More about Modeling and Analysis of MHD Free Convective Thermo-Solutal Transport in Casson Fluid Flow with Radiative Heat Flux.

Numerical study of hybrid binary Al2O3-Cu-H2O nanofluid coating boundary layer flow from an exponentially stretching/shrinking perforated substrate with Cattaneo-Christov heat flux, heat source, suction and multiple slip effects (2024)
Journal Article
Venkatadri, K., Sree Harshitha, P., Anwar Beg, O., & Kuharat, S. (2024). Numerical study of hybrid binary Al2O3-Cu-H2O nanofluid coating boundary layer flow from an exponentially stretching/shrinking perforated substrate with Cattaneo-Christov heat flux, heat source, suction and multiple slip effects. Numerical Heat Transfer, Part B Fundamentals, https://doi.org/10.1080/10407790.2024.2350692

Numerical study of hybrid binary Al2O3-Cu-H2O nanofluid coating boundary layer flow from an exponentially stretching/shrinking perforated substrate with Cattaneo-Christov heat flux, heat source, suction and multiple slip effects. ABSTRACT: Modern coa... Read More about Numerical study of hybrid binary Al2O3-Cu-H2O nanofluid coating boundary layer flow from an exponentially stretching/shrinking perforated substrate with Cattaneo-Christov heat flux, heat source, suction and multiple slip effects.

Numerical simulation of natural convection in a rectangular enclosure filled with porous medium saturated with magnetic nanofluid using Buongiorno’s two-component model (2024)
Journal Article
Venkatadri, K., Murthy, K. V. N., Bég, T. A., Bég, O. A., & Kuharat, S. (2024). Numerical simulation of natural convection in a rectangular enclosure filled with porous medium saturated with magnetic nanofluid using Buongiorno’s two-component model. #Journal not on list, https://doi.org/10.1002/cjce.25300

Motivated by studying emerging nanofluid-based magnetic fuel cells and hybrid direct absorber solar collectors, a numerical study is presented for buoyancy-driven flow in a vertical enclosure containing a porous medium saturated with magnetised nanof... Read More about Numerical simulation of natural convection in a rectangular enclosure filled with porous medium saturated with magnetic nanofluid using Buongiorno’s two-component model.

Transient dispersion of reactive solute transport in electrokinetic microchannel flow (2024)
Journal Article
Huang, S., Debnath, S., Roy, A. K., Wang, J., Jiang, W., Bég, O. A., & Kuharat, S. (2024). Transient dispersion of reactive solute transport in electrokinetic microchannel flow. Physics of Fluids, 36(5), https://doi.org/10.1063/5.0206129

Motivated by emerging applications in bio-microfluidic devices, the present study rigorously examines the generalized Taylor–Gill hydrodynamic dispersion of a point source solute injected into a microchannel, influenced by a constant axial static ele... Read More about Transient dispersion of reactive solute transport in electrokinetic microchannel flow.

Finite element stress analysis and topological optimization of a commercial aircraft seat structure (2024)
Journal Article
Amaze, C. D., Kuharat, S., Bég, O. A., Kadir, A., Jouri, W., & Bég, T. A. (in press). Finite element stress analysis and topological optimization of a commercial aircraft seat structure. #Journal not on list, 8(2), 1-17. https://doi.org/10.26701/ems.1441584

In recent years, the Finite Element Method (FEM) has emerged as a cornerstone in the field of seating design, particularly within the aircraft industry. Over the past decade, significant advancements in Finite Element (FE) analysis techniques have re... Read More about Finite element stress analysis and topological optimization of a commercial aircraft seat structure.