Present study describes the influences of mass and heat transfer on Magnetohydrodynamics (MHD) bioconvective peristaltic transport Powell-Eyring nanofluid through a curved channel with radius dependent magnetic field. Modified Darcy's law, Ohmic heating, motile gyrotactic microorganisms, thermal radiation, variable properties, Brownian thermophoresis motion are also considered. Furthermore, velocity slip conditions were employed in analysis. The phenomenon microorganisms enhances stability...

Present communication explores a novel application of the computational intelligence technique, namely, Levenberg–Marquardt scheme under Backpropagated Neural Network (LM-BNN) to solve mathematical model for magnetohydrodynamic peristaltic transport Reiner–Philippoff (R–Ph) pseudoplastic fluid considering influences Ohmic heating, mixed convection, and viscous dissipation through symmetric channel. The R–Ph is used in this investigation elucidate non-Newtonian behavior consideration....

Improving high-efficiency thermal systems to increase heat transmission has become quite prevalent nowadays. Various works were conducted gain insight into the implementation of transfer for their practical use in increasing transfer. Therefore, present study focuses on analyzing exchange and irreversibility rate (entropy generation) bioconvection peristaltic transport nanofluid with mass Investigation takes place inside an asymmetrical channel flow subject action gyrotactic motile...

Magnetohydrodynamics (MHD) has various applications in the field of medicine, particularly drug delivery and hyperthermia treatment for cancer therapy to affected area via peristaltic phenomena. Further elaboration is required optimize method hybrid nanoparticles with aluminum oxide zinc target esophagus get best-desired results. Keeping importance MHD mind, present problem highlights characteristics transport by incorporating properties oxides when suspended water through an asymmetric...

The present study focuses on the numerical investigation of magnetohydrodynamic (MHD) peristaltic movement Powell- Eyring nanofluid, including traveling gyrotactic microorganisms. examination nanofluid flow under impacts an applied magnetic field, heat generation, viscous dissipation, and Ohmic heating is a notable aspect this research. Heat mass transfer for MHD Powell-Eyring with Brownian motion thermophoresis effects explored theoretically. Mathematical modeling facilitated by lubrication...

Abstract Nanofluids have the tendency to improve thermal characteristics in a broader context, such as medical processes, industrial cooling applications, transportation industry, hybrid engines, gas temperature reduction, microelectromechanical systems, refrigerators, nuclear reactors, vehicle control, pharmaceutical management of vehicles, microelectronics, and chillers, etc. Therefore, present study investigates effects two‐dimensional magnetohydrodynamics (MHD) peristalsis Carreau–Yasuda...

Abstract Nanoparticles have significant applications in drug delivery systems, heat exchanges, treatment of several diseases and chemical reactions. The Cross non‐Newtonian nanofluid model for mass transfer inspection with diethylene glycol‐based fluid is highlighted this study. magnesium aluminate nanoparticles are used to evaluate characteristics. current investigation explores the numerical results magnetohydrodynamics (MHD) peristaltic movement Cross‐nanofluid via a curved channel under...

Present communication investigates the magnetohydrodynamics (MHD) bioconvection Williamson nanofluid with mass and thermal characteristics caused by swimming of gyrotactic microorganisms subjected to a radially magnetic field radiation through curved stretching surface. To emphasize significance engineering processes, this novel mathematical model is designed simulate transportation energy boundary layer flow non-Newtonian nanofluid, taking into account influences thermophoresis, density...

Magnetohydrodynamic rheological pumping systems based on biological sources are finding new applications in modern energy systems. These combine the electrically conductive properties of flowing fluids with behavior, geometry, and propulsion mechanisms. Further improvement transport characteristics can be achieved use nanofluids. In this study, all these aspects combined to analyze heat mass transfer mixed convective peristaltic conveyance Carreau-Yasuda (CY) magneto nanofluid mixture...

Present communication investigates the effects of entropy generation on MHD peristaltic motion Carreau–Yasuda nanofluid through a curved geometry with temperature-dependent thermal conductivity. Considered non-Newtonian model depicts thermophysical properties graphene nano-powder and Ethylene glycol. The assumed flow situation is modeled considering viscous dissipation, heat absorption/generation, Joule heating, thermophoresis effects, Brownian motion, slip conditions using lubrication...

Abstract The present study examines the thermal characteristics and stresses at boundary for peristaltic motion of Reiner‐Philippoff fluid through a symmetric channel. (R‐P) model is widely recognized its ability to provide comprehensive representation unique properties exhibited by non‐Newtonian fluids. One notable aspect that initiates this nonlinear relationship between velocity gradient shear stress. Moreover, captures implicit connection deformation rate Additionally, R‐P exhibits...

This study investigates the numerical analysis of curvature-dependent symmetric channel walls filled with porous media, focusing on various flow characteristics using Artificial Neural Networks optimized Levenberg–Marquardt Backpropagation Scheme (ANNs-BLMS). The explores Electrically Conducting Peristaltic Propulsion Carreau–Yasuda Ternary Hybrid Nanofluids (ECPPCY-THNFs) propagating through sinusoidal wave trains within a curved conduit. To streamline analysis, governing equations have...

This study investigates the performance of Zinc Oxide (ZnO) and Aluminum (Al 2 O 3 ) nanoparticles suspended in water (H O) existence magnetohydrodynamics (MHD) Hall current effects. The main objective this examination is to explore fundamental mechanisms that influence drag coefficient Nusselt number over a curved stretching surface. Governing equations are initially transformed into dimensionless PDEs through application non-similarity transformations. Following that, local method employed...

Improvement of high-performance thermal systems to enhance heat transfer has become quite prevalent these days. The main applications hybrid nanofluids are found in exchangers, the automotive industry, solar energy, pipes, space, electronic cooling, nuclear HVAC applications, biomedicine, ships, and coolant machining manufacturing. Therefore, present research investigates generation entropy for a peristaltic motion nanofluid flowing through symmetric channel under impacts mixed convection,...

The fundamental importance of peristaltic phenomena in numerous biological systems, including dialysis, heart-lung machines, urine transportation, invertebrate locomotion, and the passage gallbladder bile into intestines, persuaded scientists to investigate different aspects it over past few years. In addition, pumping is an important consideration industrial processes including, roller pumps used for transport sanitary materials, finger pumps, cell separation, endoscopes. Keeping such...

This study investigates the magnetohydrodynamics (MHD) peristaltic motion of double diffusive convection Carreau nanofluid through an asymmetric channel. Hall and magnetic field effects are also incorporated. The governing equations simplified under assumptions large wavelength small Reynolds number. Resulting set solved numerically graphs obtained to analyze influences pertinent flow parameters such as Hartmann number, parameter, Grashof solutal Grashof, thermophoresis Brownian motion,...

Purpose The primary purpose of this research is to investigate the flow and heat transfer characteristics non-Newtonian nanofluids, specifically Reiner–Philippoff (R-Ph) fluids, across a radially magnetized, curved, stretched surface. By considering factors such as Brownian motion, thermophoresis viscous dissipation, study aims enhance understanding mechanisms in various engineering industrial applications, thereby contributing improved thermal management strategies....