Comprehensive study of Maxwell-Buongiorno models with suction-injection and cubic stratification: Unlocking complex heat and mass transfer mechanisms in nonlinear convection DOI

Abbas Khan,

Muhammad Amer Qureshi,

Hijaz Ahmad

et al.

Proceedings of the Institution of Mechanical Engineers Part N Journal of Nanomaterials Nanoengineering and Nanosystems, Journal Year: 2025, Volume and Issue: unknown

Published: May 2, 2025

Heat and mass transmissions are improved by cubic stratification in nonlinear mixed convection, which has important applications the energy, electronics, medical technology sectors. The advancement of cooling systems environmental management depends on nanofluids, valued for their exceptional thermal qualities. Nanofluids essential modern engineering because heat transmission characteristics. To examine transfer a non-Newtonian Maxwell nanofluid across vertically extended surface, this study uses Buongiorno model, incorporates Brownian diffusion thermophoresis effects. Such configurations major polymer processing, coating, biomedical applications. Convective boundary conditions, stratification, effects suction injection velocity all considered inquiry. Through parametric analysis, source or sink explored, offering insights to optimize involving nanofluid-based porous media. NDSolve (Built-in) numerical approach is utilized resolve regulating formulas. A visual representation provided influences different factors concentration, temperature outline, fluid flow. skin friction, local Nusselt, Sherwood numbers have been computed examined numerically. findings show that profile concentration both noticeably lessened raising solutal value. In contrast, increasing convection parameter raises profiles. Additionally, transport dynamics nanoparticles influenced substantial boost caused motion exhibit strong agreement with earlier studies when compared those published recent literature.

Language: Английский

Comprehensive study of Maxwell-Buongiorno models with suction-injection and cubic stratification: Unlocking complex heat and mass transfer mechanisms in nonlinear convection DOI

Abbas Khan,

Muhammad Amer Qureshi,

Hijaz Ahmad

et al.

Proceedings of the Institution of Mechanical Engineers Part N Journal of Nanomaterials Nanoengineering and Nanosystems, Journal Year: 2025, Volume and Issue: unknown

Published: May 2, 2025

Heat and mass transmissions are improved by cubic stratification in nonlinear mixed convection, which has important applications the energy, electronics, medical technology sectors. The advancement of cooling systems environmental management depends on nanofluids, valued for their exceptional thermal qualities. Nanofluids essential modern engineering because heat transmission characteristics. To examine transfer a non-Newtonian Maxwell nanofluid across vertically extended surface, this study uses Buongiorno model, incorporates Brownian diffusion thermophoresis effects. Such configurations major polymer processing, coating, biomedical applications. Convective boundary conditions, stratification, effects suction injection velocity all considered inquiry. Through parametric analysis, source or sink explored, offering insights to optimize involving nanofluid-based porous media. NDSolve (Built-in) numerical approach is utilized resolve regulating formulas. A visual representation provided influences different factors concentration, temperature outline, fluid flow. skin friction, local Nusselt, Sherwood numbers have been computed examined numerically. findings show that profile concentration both noticeably lessened raising solutal value. In contrast, increasing convection parameter raises profiles. Additionally, transport dynamics nanoparticles influenced substantial boost caused motion exhibit strong agreement with earlier studies when compared those published recent literature.

Language: Английский

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