Significance of heat source/sink on the radiative flow of Cross nanofluid across an exponentially stretching surface towards a stagnation point with chemical reaction

Babu, K.S. Srinivasa; Parandhama, A.; Vijaya, R. Bhuvana

doi:10.1002/htj.22428

Cited by 6 publications

(4 citation statements)

References 35 publications

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“…Figs. [13][14][15] show that as the value of the T I increases, the Bejan number rises, while the same decrease with the rise in Br and S . With an escalation in the Brinkman number, there is a corresponding escalation in the heat generated by viscous dissipation, resulting in a concomitant reduction in the Bejan number.…”

Section: Irreversibility Analysismentioning

confidence: 95%

“…It has been noted that when the Richardson number grows, the impact of nanoparticle dispersion on reducing skin friction becomes more pronounced. Following this, several research papers [11][12][13][14][15][16][17][18][19][20] delved into the flat plate as a geometric form, investigating a range of fluid dynamics scenarios with different parameters, encompassing thermal radiation.…”

Section: Introductionmentioning

confidence: 99%

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Impact of Shape Factor on a Couple Stress Flow of a Ternary Hybrid Nanofluid over an Inclined Flat Plate when Non-Uniform Heat Source and Thermal Radiation are Significant: A Darcy-Forchheimer Model

Kathyayani,

Satya Nagendra Rao

2024

J. Phys.: Conf. Ser.

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The study of fluid flow over an inclined flat plate finds applications in a diverse range of engineering fields including aerodynamics, energy production and automotive design. This study theoretically investigates the steady and radiative flow of a ternary hybrid nanofluid (Water + TiO2 + CoFe2O4 + MgO) with couple stress, using the Darcy-Forchheimer model. The flow occurs through a tilted flat plate and is subjected to irregular heat source parameter and entropy generation. The problem’s equations have been transformed into a collection of ordinary differential equations (ODEs), which has been skillfully resolved using the bvp4c solver. Graphs are utilized to elucidate outcomes for two instances of shape components, namely platelet and spherical. An escalation in the couple stress parameter (S) is demonstrated to be inversely related to the fluid velocity, resulting in a drop. Specifically, when 0.5 ≤ S ≤ 3, the friction factor exhibits a decline, with rates of 0.306201851 (for Platelet shape) and 0.304466755 (for Spherical shape). An intriguing observation reveals an augmentation in the generation of entropy as the volumetric fraction of TiO 2 rises. Upon investigation, it has been determined that when the Eckert number (Ecn) increases within the range of 0 ≤ Ecn ≤ 0.3, there is a significant reduction in the Nusselt number. Specifically, the decline is measured to be 0.328685192 for the platelet shape and 0.308939422 for the spherical shape. The utility of the Forchheimer number in regulating the fluid’s motion has been unveiled.

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Section: Irreversibility Analysismentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

Impact of Shape Factor on a Couple Stress Flow of a Ternary Hybrid Nanofluid over an Inclined Flat Plate when Non-Uniform Heat Source and Thermal Radiation are Significant: A Darcy-Forchheimer Model

Kathyayani,

Satya Nagendra Rao

2024

J. Phys.: Conf. Ser.

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“…It was their contention that the utilization of hybrid nanoparticles resulted in an enhancement in the heat transmission rate. Afterwards, a number of scholars [9][10][11][12][13][14][15][16][17][18] delved into the realm of exponentially stretching sheets, meticulously examining diverse HNF flows under varying parameters, encompassing the intricate phenomenon of heat generation.…”

Section: Background Informationmentioning

confidence: 99%

Exploring Entropy Minimization in Hybrid Nanofluid Flow Past an Exponentially Stretching Sheet with Significant Quadratic Radiation and Lorentz Forces: A Non-Fourier Heat Flux Analysis

Prakash Gowd,

Kathyayani

2024

J. Phys.: Conf. Ser.

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The real-world applications of fluid flow across an exponentially extended sheet are manifold, encompassing crystal formation, paper manufacture, and the cooling of metallic sheets. The primary aim of this study is to conduct a comprehensive theoretical analysis on the behaviour of a hybrid nanofluid flow through an exponentially extended sheet under the influence of quadratic thermal radiation, non-Fourier heat flux and magnetic field. The initially presented equations have been simplified to a set of ODEs, and the bvp4c solver has expertly found solutions to these. Validated the results (of engineering parameters including friction coefficient) obtained using the bar graphs by using Multiple linear regression. It has been noted that a greater magnitude of magnetic field is associated with a temperature enrichment. It is found that higher values of Brinkman number lead to a greater rate of entropy generation. It has been shown that the thermal relaxation parameter (Γ) and magnetic field parameters (M) exert distinct influences on the rate of heat transmission. It is detected that the Nusselt number enhances by 0.700996 (when 0 ≤ Γ ≤ 0.6) and the same declines by 0.14086 (when 0 ≤ M ≤ 3.5). Within the range of 0 ≤ M ≤ 3.5, it is seen that the friction factor exhibits a decline with a notable rate of 1.41843.

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“…Activation energy effect in a chemical reaction with velocity slip and viscous dissipation. on mixed convective MHD two‐dimensional (2D) Carreau nanofluid due to an exponentially stretching surface were investigated by Babu et al 30 Babu et al 31 discussed the impact of chemical reaction on radiative stagnation point flow of cross nanofluid over an exponentially stretching surface with heat source/sink.…”

Section: Introductionmentioning

confidence: 99%

Numerical investigation of MHD convective free stream nanofluid flow influenced by radiation and chemical reaction over stretching cylinder

et al. 2022

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Chemically reacting magnetohydrodynamic radiative flow of convective free stream nanofluid through a stretching cylinder using Buongiorno's model is discussed. The behavior of Brownian motion and thermophoresis is also appropriate. By adopting the similarity transformation, the partial differential equation is diminished into a first‐order ordinary differential equation (ODE). Since transformed equations are highly nonlinear these ODEs are solved by using mathematical simulation. The shooting procedure has been adopted to resolve converted equations along the attendant Runge–Kutta–Fehlberg technique. The reason behind the present work is to research the effects of different parameters of fluid, namely, magnetic parameter, free stream velocity, Brownian motion, thermophoresis, chemical reaction, heat radiation, Lewis number on nanoparticle concentration, temperature, and velocity distribution. The impact of significantly participating parameters on velocity, concentration, and temperature distribution is distinguished with appropriate physical significance. The convergence of solutions for temperature, velocity, and concentration profiles is studied carefully. The measured challenges of nanofluids are scale‐up capacity, increase in nanofluid viscosity, nanoparticle dispersion, and nanofluid cost. It is observed that nanoparticle temperature rises for more value of Brownian motion parameter while it declines for higher Lewis number. The current study in the cylindrical region is related to novel free stream flow in the presence of chemical reactions along with convective conditions which find applications in electronic systems like microprocessors and in a wide variety of industries and in the field of biotechnology. The current research helps control the transport phenomena, helping production companies to find the quality of the desired product.

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Significance of heat source/sink on the radiative flow of Cross nanofluid across an exponentially stretching surface towards a stagnation point with chemical reaction

Cited by 6 publications

References 35 publications

Impact of Shape Factor on a Couple Stress Flow of a Ternary Hybrid Nanofluid over an Inclined Flat Plate when Non-Uniform Heat Source and Thermal Radiation are Significant: A Darcy-Forchheimer Model

Impact of Shape Factor on a Couple Stress Flow of a Ternary Hybrid Nanofluid over an Inclined Flat Plate when Non-Uniform Heat Source and Thermal Radiation are Significant: A Darcy-Forchheimer Model

Exploring Entropy Minimization in Hybrid Nanofluid Flow Past an Exponentially Stretching Sheet with Significant Quadratic Radiation and Lorentz Forces: A Non-Fourier Heat Flux Analysis

Numerical investigation of MHD convective free stream nanofluid flow influenced by radiation and chemical reaction over stretching cylinder

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