Numerical Analysis of Newly Developed Fractal-Fractional Model of Casson Fluid With Exponential Memory

Murtaza, Saqib; Ahmad, Zubair; Seangwattana, Thidaporn; Ali, Ibn e

doi:10.1142/s0218348x2240151x

Cited by 25 publications

(7 citation statements)

References 37 publications

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“…The nonlocality property of fractional derivatives is useful in predicting certain materials' memory and heredity properties in certain circumstances. As a result, the fractional derivative 34 – 37 can be defined physically as a memory search. Scholars from virtually all fields of science, technology, and engineering have been studying non-local operators of differentiation over the past few decades since they have the capability to incorporate more complex phenomena.…”

Section: Introductionmentioning

confidence: 99%

Dynamics of chaotic system based on circuit design with Ulam stability through fractal-fractional derivative with power law kernel

Khan

Ahmad

Shah

et al. 2023

Sci Rep

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In this paper, the newly developed Fractal-Fractional derivative with power law kernel is used to analyse the dynamics of chaotic system based on a circuit design. The problem is modelled in terms of classical order nonlinear, coupled ordinary differential equations which is then generalized through Fractal-Fractional derivative with power law kernel. Furthermore, several theoretical analyses such as model equilibria, existence, uniqueness, and Ulam stability of the system have been calculated. The highly non-linear fractal-fractional order system is then analyzed through a numerical technique using the MATLAB software. The graphical solutions are portrayed in two dimensional graphs and three dimensional phase portraits and explained in detail in the discussion section while some concluding remarks have been drawn from the current study. It is worth noting that fractal-fractional differential operators can fastly converge the dynamics of chaotic system to its static equilibrium by adjusting the fractal and fractional parameters.

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Section: Introductionmentioning

confidence: 99%

Dynamics of chaotic system based on circuit design with Ulam stability through fractal-fractional derivative with power law kernel

Khan

Ahmad

Shah

et al. 2023

Sci Rep

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“…In [3], Abro et al utilized the fractal-fractional theory to discussed chaos in thermal convection of the fluid. Murtaza et al [4] investigated the thermal convection of Casson fluid flow in a micro channel by using the theory of FFD. The authors concluded that, fractal dimension provide larger memory effects than the usual fractional derivative.…”

Section: Introductionmentioning

confidence: 99%

“…Murtaza et al. [4] investigated the thermal convection of Casson fluid flow in a micro channel by using the theory of FFD. The authors concluded that, fractal dimension provide larger memory effects than the usual fractional derivative.…”

Section: Introductionmentioning

confidence: 99%

Fractal‐fractional analysis and numerical simulation for the heat transfer of ZnO + Al₂O₃ + TiO₂/DW based ternary hybrid nanofluid

Murtaza,

Kumam,

Sutthibutpong

et al. 2023

Z Angew Math Mech

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Nanofluids are used to achieve maximum thermal performance with the smallest concentration of nanoparticles and stable suspension in conventional fluids. The effectiveness of nanofluids in convection processes is significantly influenced by their increased thermophysical characteristics. However, this technology is not ended here; binary and ternary nanofluids are now used to improve the efficiency of regular fluids. Therefore, this paper aims to analyze the natural convection Newtonian ternary nanofluid flow in a vertical channel. The tri‐hybridized nanoparticles of zinc oxide ZnO, Aluminum oxide Al2O3, and titanium oxide TiO2 is dissolved in base fluid distilled water (DW) to form a homogenous suspension. The impact of thermal radiation, joule heating, and viscous dissipation are also assumed. The classical Newtonian ternary nanofluid model has been generalized by using fractal‐fractional derivative (FFD) operator. The generalized model has been discretized by using the Crank–Nicolson scheme and then solved by using computational software. To analyze the behavior of fluid flow and heat distribution in fluid, the obtained solution was computed numerically and then plotted in response to different physical parameters. It is noted from the figure that when the volume fraction ϕ reaches to 0.04 (4% of the base fluid), the ternary nanofluid flow shows a significant amount of enhancement in heat transfer rate as compared to binary and unary nanofluid flows. This enhancement in the rate of heat transfer leads to improve the thermophysical characteristics such as viscosity, thermal expansion, and heat capacity etc. of the base fluid. It is also worth mentioning here that the thermal field is also enhance with the higher values of Eckert number , radiation parameter , and joule heating parameter .

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“…Some recent studies [11][12][13] are referred to for better understanding of the ows mentioned above. Nanouids have more practical features [14][15][16] in uid mechanics due to technological advancements since the thermal properties of the nanouid are better (see for instance ref. 17) than those of the uids.…”

Section: Introductionmentioning

confidence: 99%

Squeezed Darcy–Forchheimer Casson nanofluid flow between horizontal plates under the effect of inclined magnetic field

Memon,

Sagheer,

Al-Malki

et al. 2023

Nanoscale Adv.

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Numerical Analysis of Newly Developed Fractal-Fractional Model of Casson Fluid With Exponential Memory

Cited by 25 publications

References 37 publications

Dynamics of chaotic system based on circuit design with Ulam stability through fractal-fractional derivative with power law kernel

Dynamics of chaotic system based on circuit design with Ulam stability through fractal-fractional derivative with power law kernel

Fractal‐fractional analysis and numerical simulation for the heat transfer of ZnO + Al₂O₃ + TiO₂/DW based ternary hybrid nanofluid

Squeezed Darcy–Forchheimer Casson nanofluid flow between horizontal plates under the effect of inclined magnetic field

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Numerical Analysis of Newly Developed Fractal-Fractional Model of Casson Fluid With Exponential Memory

Cited by 25 publications

References 37 publications

Dynamics of chaotic system based on circuit design with Ulam stability through fractal-fractional derivative with power law kernel

Dynamics of chaotic system based on circuit design with Ulam stability through fractal-fractional derivative with power law kernel

Fractal‐fractional analysis and numerical simulation for the heat transfer of ZnO + Al2O3 + TiO2/DW based ternary hybrid nanofluid

Squeezed Darcy–Forchheimer Casson nanofluid flow between horizontal plates under the effect of inclined magnetic field

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Fractal‐fractional analysis and numerical simulation for the heat transfer of ZnO + Al₂O₃ + TiO₂/DW based ternary hybrid nanofluid