Significance of chemical reaction and velocity slip on Magnetized Sutterby Nanofluid over Stretchable Sheet
The novelty of current analysis is to examine various effects on steady Sutterby nanofluid flow over a stretching sheet. This communication describes the current mathematical modeling of Sutterby nanofluids with radiant heat assessment. Buongiorno's model incorporates the thermophoresis and Bro...
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Elsevier
2025-06-01
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| Series: | Results in Engineering |
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| author | K Srihari B. Shankar Goud T Lokesh Babu |
| author_facet | K Srihari B. Shankar Goud T Lokesh Babu |
| author_sort | K Srihari |
| collection | DOAJ |
| description | The novelty of current analysis is to examine various effects on steady Sutterby nanofluid flow over a stretching sheet. This communication describes the current mathematical modeling of Sutterby nanofluids with radiant heat assessment. Buongiorno's model incorporates the thermophoresis and Brownian motion effects. As part of the present study, velocity slip and magnetic fields were also studied in relation to flow phenomena. A Sutterby fluid model is used in order to represent the non-Newtonian nature. A boundary layer theory-based modeling framework is used to formulate the proposed model, which involves the use of basic partial differential equations that relate mass, momentum, energy, and nanoparticle concentration conservations. Based on similarity variables, we transformed the generated governing equations into ordinary differential equations. MATLAB's bvp4c code is used to handle the numerical treatment of the reduced system of ordinary differential equations. Through graph analysis, we determine and analyze the effects of different parameter characteristics on velocity, temperature, and concentration profiles. Tables are used to illustrate the physical consequences of governing factors, such as mass or heat transfer rate and skin friction. The main outcomes are: By increasing the power-low index, the velocity distribution is enhanced and fluid temperature is reduced. Upsurge in velocity-slip leads to a reduction in velocity distributions. Higher Deborah and Reynolds numbers increase velocity, whereas diminish the fluid temperature. Higher Thermophoresis values increase concentration and temperature. Higher Brownian motion values increase temperature and decline the concentration. Greater M, Re, and Ec values enhance temperature. Concentration profiles become thinner as the Schmidt number Sc and chemical parameters rise. |
| format | Article |
| id | doaj-art-bebac9d6d06f4a8f8bd3b10f87e16457 |
| institution | OA Journals |
| issn | 2590-1230 |
| language | English |
| publishDate | 2025-06-01 |
| publisher | Elsevier |
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| series | Results in Engineering |
| spelling | doaj-art-bebac9d6d06f4a8f8bd3b10f87e164572025-08-20T02:05:17ZengElsevierResults in Engineering2590-12302025-06-012610556410.1016/j.rineng.2025.105564Significance of chemical reaction and velocity slip on Magnetized Sutterby Nanofluid over Stretchable SheetK Srihari0B. Shankar Goud1T Lokesh Babu2Department of Mathematics, Mahatma Gandhi Institute of Technology, Gandipet, Hyderabad, Telangana 500075, IndiaDepartment of Mathematics, JNTUH University College of Engineering, Science & Technology, Kukatpally, Hyderabad, Telangana 500085, India; Corresponding author.Department of Mathematics, Sreenidhi Institute of Science and Technology, Hyderabad, IndiaThe novelty of current analysis is to examine various effects on steady Sutterby nanofluid flow over a stretching sheet. This communication describes the current mathematical modeling of Sutterby nanofluids with radiant heat assessment. Buongiorno's model incorporates the thermophoresis and Brownian motion effects. As part of the present study, velocity slip and magnetic fields were also studied in relation to flow phenomena. A Sutterby fluid model is used in order to represent the non-Newtonian nature. A boundary layer theory-based modeling framework is used to formulate the proposed model, which involves the use of basic partial differential equations that relate mass, momentum, energy, and nanoparticle concentration conservations. Based on similarity variables, we transformed the generated governing equations into ordinary differential equations. MATLAB's bvp4c code is used to handle the numerical treatment of the reduced system of ordinary differential equations. Through graph analysis, we determine and analyze the effects of different parameter characteristics on velocity, temperature, and concentration profiles. Tables are used to illustrate the physical consequences of governing factors, such as mass or heat transfer rate and skin friction. The main outcomes are: By increasing the power-low index, the velocity distribution is enhanced and fluid temperature is reduced. Upsurge in velocity-slip leads to a reduction in velocity distributions. Higher Deborah and Reynolds numbers increase velocity, whereas diminish the fluid temperature. Higher Thermophoresis values increase concentration and temperature. Higher Brownian motion values increase temperature and decline the concentration. Greater M, Re, and Ec values enhance temperature. Concentration profiles become thinner as the Schmidt number Sc and chemical parameters rise.http://www.sciencedirect.com/science/article/pii/S2590123025016342Chemical reactionVelocity slipNon-Newtonian Sutterby fluidBrownian motion and thermophoresis effects |
| spellingShingle | K Srihari B. Shankar Goud T Lokesh Babu Significance of chemical reaction and velocity slip on Magnetized Sutterby Nanofluid over Stretchable Sheet Results in Engineering Chemical reaction Velocity slip Non-Newtonian Sutterby fluid Brownian motion and thermophoresis effects |
| title | Significance of chemical reaction and velocity slip on Magnetized Sutterby Nanofluid over Stretchable Sheet |
| title_full | Significance of chemical reaction and velocity slip on Magnetized Sutterby Nanofluid over Stretchable Sheet |
| title_fullStr | Significance of chemical reaction and velocity slip on Magnetized Sutterby Nanofluid over Stretchable Sheet |
| title_full_unstemmed | Significance of chemical reaction and velocity slip on Magnetized Sutterby Nanofluid over Stretchable Sheet |
| title_short | Significance of chemical reaction and velocity slip on Magnetized Sutterby Nanofluid over Stretchable Sheet |
| title_sort | significance of chemical reaction and velocity slip on magnetized sutterby nanofluid over stretchable sheet |
| topic | Chemical reaction Velocity slip Non-Newtonian Sutterby fluid Brownian motion and thermophoresis effects |
| url | http://www.sciencedirect.com/science/article/pii/S2590123025016342 |
| work_keys_str_mv | AT ksrihari significanceofchemicalreactionandvelocitysliponmagnetizedsutterbynanofluidoverstretchablesheet AT bshankargoud significanceofchemicalreactionandvelocitysliponmagnetizedsutterbynanofluidoverstretchablesheet AT tlokeshbabu significanceofchemicalreactionandvelocitysliponmagnetizedsutterbynanofluidoverstretchablesheet |