Abstract
Current disquisition is presented to excogitate heat and mass transfer features of second grade fluid flow generated by an inclined cylinder under the appliance of diffusion, radiative heat flux, convective and Joule heating effects. Mathematical modelling containing constitutive expressions by obliging fundamental conservation laws are constructed in the form of partial differential equations. Afterwards, transformations are implemented to convert the attained partial differential system into ordinary differential equations. An implicit finite difference method known as the Keller Box was chosen to extract the solution. The impact of the flow-controlling variables on velocity, temperature and concentration profiles are evaluated through graphical visualizations. Variations in skin friction, heat transfer and mass flux coefficients against primitive variables are manipulated through numerical data. It is inferred from the analysis that velocity of fluid increases for incrementing magnitude of viscoelastic parameter and curvature parameter whereas it reduces for Darcy parameter whereas skin friction coefficient decreases against curvature parameter. Assurance of present work is manifested by constructing comparison with previous published literature.
Highlights
Literature SurveyNamely Newtonian and non-Newtonian fluids, have changed the dynamics of today’s world
An energy flux termed as diffusion-thermo is produced due to a concentration gradient, whereas mass flux is known as thermo-diffusion, and which is induced by way of temperature gradients
The prime concern of this investigation is to anticipate the radiative flow of a second-grade fluid with Joule heating, as well as Dufour and Soret aspects over an inclined stretching cylinder with
Summary
Namely Newtonian and non-Newtonian fluids, have changed the dynamics of today’s world. Optimal production from the industrial sector requires appropriate collaboration of thermal and concentration fields This can be done either by providing radiation, Newtonian heating, Dufour and Soret aspects, mixed convection, as well as many other ways. An energy flux termed as diffusion-thermo (the Dufour effect) is produced due to a concentration gradient, whereas mass flux is known as thermo-diffusion (the Soret effect), and which is induced by way of temperature gradients Such aspects are required in heat exchangers, cooling applications, steel industries and so forth. Goshayeshi et al [33] elaborated the effect of a ferro nanofluid on the enhancement of the thermal features of a flowing fluid within the heat pipe under the implication of a magnetic field. The prime concern of this investigation is to anticipate the radiative flow of a second-grade fluid with Joule heating, as well as Dufour and Soret aspects over an inclined stretching cylinder with. To the best of the author0 s knowledge, this work has not been done so far and it will serve as a reference study for upcoming research in this direction
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