MHD Radiative Flow of Casson and Williamson Nanofluids over an Inclined Cylindrical Surface with Chemical Reaction Effects

Sarkar, Tanmoy; Reza‐E‐Rabbi, Sk.; Arifuzzaman, S. M.; Ahmed, Rafiuddin; Khan, Md. Shakhaoath; Ahmmed, S. F.

doi:10.18280/ijht.370421

Cited by 12 publications

(6 citation statements)

References 16 publications

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“…Ogunseye et al 15 presented a computational analysis of the mass and heat transferred by a reactive Casson-Williamson nanofluid via a moveable cylinder in the vertical direction and developed a ground breaking bivariate overlapping multi-domain technique using the spectral quasi-linearization method for analyzing nondimensional mathematical nonlinear specified flow equations. Additionally, the study with the chemical reaction related MHD radiant mobility of Casson and Williamson nanofluids along an inclination surface which was cylindrical was also interpreted by Sarker et al 16 Casson fluid's interaction between stress and strain makes it non-Newtonian in terms of rheological features. This fluid is a strong option for share thinning applications due to its high share viscosity and yield stress.…”

Section: Introductionmentioning

confidence: 74%

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Numerical simulation of mass and heat transport phenomena of hydromagnetic flow of Casson fluid with sinusoidal boundary conditions

Islam

Reza‐E‐Rabbi

Ali

et al. 2023

Engineering Reports

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A magnetic field might interact with its surroundings, influencing chemical and physical processes in materials processing, heat exchangers, and other scientific study. Therefore, a computational study of non‐Newtonian (Casson) free convective MHD unsteady fluid flow has been highlighted in this article with mass and heat transit property through a vertical infinite porous plate. A sinusoidal boundary conditions as well as chemical reaction and thermal radiation have been considered. Using a collection of nondimensional variables, the flow related equations are also turned into nondimensional form. The EFDM algorithm is employed in order to arrive at a numerical solution via Compaq Visual Fortran. The reliability of the numerical solution has been confirmed using stability testing and convergence analysis. The whole system is convergent when the values of Prandtl number and Lewis number are greater than or equals to 0.075 and 0.025, respectively. A visual depiction of the impact of the pertinent factors on dimensionless velocity, temperature, and concentration profiles are displayed through graphical representation as well as with tabular representation. It has been inspected that when the magnetic component is regarded, it greatly affects the heat transfer factors of Casson nanofluid and the heat also rises when Eckert number, heat source and radiation parameter accelerate. It is also found that the Sherwood number is increased as the impact of chemical reaction parameter and the Lewis number, also the skin friction is decreased as the influence of porosity term got accelerated. The comparison of the current findings with the data that were previously published serves as the final stage in validating the present study.

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Section: Introductionmentioning

confidence: 74%

“…All of the discussion that has been presented in the Section 6.1 are in a good agreement with the several published works. 3,4,7,9,16…”

Section: F I G U R Ementioning

confidence: 99%

Numerical simulation of mass and heat transport phenomena of hydromagnetic flow of Casson fluid with sinusoidal boundary conditions

Islam

Reza‐E‐Rabbi

Ali

et al. 2023

Engineering Reports

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“…It is noticed that with the increase in porous parameter the temperature and concentration also increases, whereas the dimensionless velocity decreases across a circular cylinder was numerically investigated by Waqar et al 10 Imad et al 11 explored the MHD Carreau nanofluid flow with joule heating and convective boundary conditions. Transient heat transfer in hybrid nanofluid flow toward stagnation point with the impact of thermal radiation, Joule dissipation, and heat generation over a convectively heated and moving cylinder was reported by Kumbhakar et al 12 The self-propelled motion of gyrotactic swimming microorganisms of MHD nanoliquid flow over a convectively heating cylinder analyzed by Arif et al 13 A mixed convective MHD nanofluid and heat transfer with chemical reaction and magnetic field over a cylinder oriented in inclined with the angle of inclination with horizontal introduced by Mondal et al 14 Tanmoy et al 15 described the boundary layer MHD, Casson and Williamson nanofluid flow with the influence of linear order chemical reaction in the presence of thermal radiations and graphically interpreted the comparison of mass and heat transform accomplishment between Casson and Williamson nanofluids. 16 Recently, Mackolil et al 17 conducted thermal analysis under heat source effects and Williamson nanoliquid taken as working fluid.…”

Section: Introductionmentioning

confidence: 98%

Thermal efficiency of radiated tetra-hybrid nanofluid [(Al₂O₃-CuO-TiO₂-Ag)/water]_tetra under permeability effects over vertically aligned cylinder subject to magnetic field and combined convection

et al. 2023

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Applications The nanofluids and their upgraded version (ternary and tetra nanofluids) have a very rich thermal mechanism and convinced engineers and industrialist because of their dominant characteristics. These broadly use in chemical, applied thermal, mechanical engineering, and biotechnology. Particularly, heat transfer over a cylindrical surface is important in automobiles and heavy machinery. Purpose and Methodology Keeping in front the heat transfer applications, a model for Tetra-Composite Nanofluid [(Al2O3-CuO-TiO2-Ag)/water]tetra is developed over a vertically oriented cylinder in this study. The existing traditional model was modified with innovative effects of nonlinear thermal radiations, magnetic field, absorber surface of the cylinder, and effective thermophysical characteristics of tetra nanofluid. Then, a new heat transfer model was achieved successfully after performing some mathematical operations. Major Findings The mathematical analysis was performed via RK and determined the results graphically. The study gives suitable parametric ranges for high thermal efficiency and fluid movement. Applied magnetics forces were observed excellent to control the fluid motion, whereas curvature and buoyancy forces favor the motion. Thermal mechanism in Tetra nanofluid is dominant over ternary nanoliquid and nonlinear thermal radiations increased the heat transfer rate.

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“…The importance of the MHD flow of this fluid model by taking an exponentially porous stretching sheet with slip effects is discussed in [3]. In [4], the importance of this fluid model in different areas along with thermal radiation is examined by taking an inclined cylindrical surface. The recent applications of this fluid model by taking a stretching cylinder with heat transfer are discussed in [5].…”

Section: Introductionmentioning

confidence: 99%

Stability analysis on dual solutions of MHD Casson fluid flow with thermal and chemical reaction over a permeable elongating sheet

2022

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The endeavor of this study is to explore the nature of dual solutions (steady and unsteady) for the Casson fluid flow with the simultaneous consequences of both thermal and mass transmissions. The flow passes above an absorbent elongating sheet in the existence of a constant magnetic field. The supported leading equations are remodeled into a set of solvable forms with the assist of suitable similarity variables and hence deciphered utilizing the “MATLAB routine bvp4c scheme.” Due to the sudden changes in the surface with time, the temperature and flow behavior over the sheet also change, and hence dual‐type flow solutions exist. Stability scrutiny is implemented to examine the less (more) stable and visually achievable solutions. From this study, we have achieved many interesting facts, among them, we can use magnetic and Casson fluid parameters to control the motion of the fluid and to enlarge of thermal transmission of the fluid. This flow model has many important applications in different physical fields, such as engineering sciences, medical sciences, and different industrial processes. One of the most important results, which has been achieved from this investigation, is that the Prandtl number enriches the heat transfer rate of the fluid at the surface during the time‐independent case under the suction environment. Also, the chemical reaction parameter helps to enhance the mass accumulation rate of the fluid in both cases.

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MHD Radiative Flow of Casson and Williamson Nanofluids over an Inclined Cylindrical Surface with Chemical Reaction Effects

Cited by 12 publications

References 16 publications

Numerical simulation of mass and heat transport phenomena of hydromagnetic flow of Casson fluid with sinusoidal boundary conditions

Numerical simulation of mass and heat transport phenomena of hydromagnetic flow of Casson fluid with sinusoidal boundary conditions

Thermal efficiency of radiated tetra-hybrid nanofluid [(Al₂O₃-CuO-TiO₂-Ag)/water]_tetra under permeability effects over vertically aligned cylinder subject to magnetic field and combined convection

Stability analysis on dual solutions of MHD Casson fluid flow with thermal and chemical reaction over a permeable elongating sheet

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MHD Radiative Flow of Casson and Williamson Nanofluids over an Inclined Cylindrical Surface with Chemical Reaction Effects

Cited by 12 publications

References 16 publications

Numerical simulation of mass and heat transport phenomena of hydromagnetic flow of Casson fluid with sinusoidal boundary conditions

Numerical simulation of mass and heat transport phenomena of hydromagnetic flow of Casson fluid with sinusoidal boundary conditions

Thermal efficiency of radiated tetra-hybrid nanofluid [(Al2O3-CuO-TiO2-Ag)/water]tetra under permeability effects over vertically aligned cylinder subject to magnetic field and combined convection

Stability analysis on dual solutions of MHD Casson fluid flow with thermal and chemical reaction over a permeable elongating sheet

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Thermal efficiency of radiated tetra-hybrid nanofluid [(Al₂O₃-CuO-TiO₂-Ag)/water]_tetra under permeability effects over vertically aligned cylinder subject to magnetic field and combined convection