Litcius/Paper detail

Peristaltic pumping of viscoelastic fluid in a diverging channel: effects of magnetic field and surface roughness

Ashvani Kumar, Anjali Bhardwaj, Dharmendra Tripathi

2024International Journal of Numerical Methods for Heat &amp Fluid Flow12 citationsDOI

Abstract

Purpose Surface properties (smooth or roughness) play a critical role in controlling the wettability, surface area and other physical and chemical properties like fluid flow behaviour over the rough and smooth surfaces. It is reported that rough surfaces are offering more significant insights as compared to smooth surfaces. The purpose of this study is to examine the effects of surface roughness in the diverging channel on physiological fluid flows. Design/methodology/approach A mathematical formulation based on the conservation of mass and momentum equations is developed to derive exact solutions for the physical quantities under the assumption of low Reynolds numbers and long wavelengths, which are appropriate for biological transport scenarios. Findings The results reveal that an increase in surface roughness reduces axial velocity and volumetric flow rate while increasing pressure distribution and turbulence in skin friction. Research limitations/implications These findings offer valuable insights for biological flow analysis, highlighting the effects of surface roughness, non-uniformity of the channel and magnetic fields. Practical implications These findings are very much applicable for designing the pumping devices for transportation of the fluids in non-uniform channels. Originality/value This study examines the impact of surface roughness on the peristaltic pumping of viscoelastic (Jeffrey) fluids in diverging channels with transverse magnetic fields.

Topics & Concepts

MechanicsReynolds numberSurface roughnessWettingTurbulenceSurface finishViscoelasticityFluid dynamicsOpen-channel flowFlow (mathematics)Materials scienceMagnetic fieldClassical mechanicsPhysicsComposite materialQuantum mechanicsNanofluid Flow and Heat TransferFluid Dynamics and Turbulent FlowsRheology and Fluid Dynamics Studies