A comparative study of nanofluid (Cu–H2O) and pure fluid (water) is investigated over a moving upright plate surrounded by porous surface. The novelty the includes unsteady laminar MHD natural transmission flow an incompressible fluid, to get thermal conductivity more than fluid. chemical reaction this with respect radiation absorption observed considering nanoparticles attain equilibrium. present work validated previously published work. travels constant velocity u0, temperature...

The analysis of heat dissipation over a layered stretching sheet under the control magneto-hydrodynamic mixed convective flow Eyring-Powell fluid is described in this study. effect emission and immersion investigated. A viscous, incompressible, two-dimensional, laminar assumed. governing equations momentum temperature pictures are translated into collection non-linear differential using conformable similarity transformations. To obtain mathematical solution equations, shooting approach...

This study aims to analyze a Bayesian regularization backpropagation algorithm for micropolar ternary hybrid nanofluid flow over curved surfaces with homogeneous and heterogeneous reactions, Joule heating viscous dissipation. The consists of nanoparticles titanium oxide (TiO2), copper (CuO), silicon (SiO2), blood as the base fluid. governing partial differential equations fluid are converted into ordinary using group self-similar transformations. solved an appropriate shooting in MATLAB....

Here, a mass-based hybridity model is applied to inquire about the mixed convection of thermomicropolar binary nanofluid (TMBNF) upon shrinking and porous plate. The nanoparticles are silver (AgNPs) graphene (GrNPs), in spherical shape, suspended an aqua base fluid. methodology considers masses fluid as alternative first second volume fraction, according single-phase approach named Tiwari-Das model. By using similarity transformation technique, dominating PDEs changed system ODEs that can be...

The aim of present study is to examine the augmentation thermal energy transfer in hybrid nanofluid flow caused by a rotating Riga disk presence radiation and chemical reaction. silver aluminium oxide nanoparticles are used effect water base fluid. Darcy-Forchheimer model considered endorse inertial porous media effects makes more realistic from physical scenario. Levenberg-Marquardt backpropagation algorithm analyze nanofluid's properties. Using scaling group transformations, governing...

Casson flow ferromagnetic liquid blood over stretching region is studied numerically. The domain influence by radiation and velocity thermal slip conditions. Blood acts an impenetrable magneto-dynamic yields governing equations. conservative nonlinear partial differential equations, reduced to ODEs the help of similarity translation technique. transport equations were transformed into first order resultant system are solved with 4th R-K scheme. Performing a magnetic dipole across stretched...

The heat transfer rate of the MHD nanofluid blood flow through a stenosed composite artery with hematocrit-dependent viscosity and Hall effect is optimized by using response surface methodology (RSM). An experimental design sensitivity analysis based on RSM are employed to examine impact different physical parameters how changes these affect factors interest. utilized in process constructing model dependencies between output variables, such as skin friction coefficient local Nusselt number,...

Examining the movement of MHD hybrid nanofluid flows along linearly extending regions provides valuable insights for improving heat transfer efficiency. Many researchers have investigated various factors, such as Forchheimer number, porosity, radiation, aligned magnetic field and mixed convection, in context incorporating nanofluids into these flows. The existing literature lacks discussion on effect radiation absorption with parameter an flow a 3-D rotating Ag−CuO/H2O through expanded...

Purpose A parabolic trough solar collector is an advanced concentrated power technology that significantly captures radiant energy. Solar will help different sectors reach their energy needs in areas where traditional fuels are use. This study aims to examine the sensitivity analysis for optimizing heat transfer and entropy generation Jeffrey magnetohydrodynamic hybrid nanofluid flow under influence of motile gyrotactic microorganisms with radiation collectors. The influences viscous...

Non-Newtonian fluids are essential in situations where heat and mass transfer involved. Heat processes increase efficiency when nanoparticles (0.01≤φ≤0.03) added to these fluids. The present study implements a computational approach investigate the behavior of non-Newtonian nanofluids on surface an upright cone. Viscous dissipation (0.3≤Ec≤0.9) magnetohydrodynamics (MHD) (1≤M≤3) also taken into account. Furthermore, we explore how microorganisms impact fluid's transfer. physical model's...

This paper introduces a novel data driven yaw control algorithm synthesis method based on Reinforcement Learning (RL) for variable pitch speed wind turbine. Yaw has not been extendedly studied in the literature; fact, most of currently considered developments scope energy are oriented to and control. The important drawbacks very large time constants strict angle change rate constraints due high mechanical loads when turbine is changed order adequate it orientation. An optimal needs be...

Efficient resource use is a very important issue in wireless sensor networks and decentralized IoT-based systems. In this context, smooth pathfinding mechanism can achieve goal. However, since problem Non-deterministic Polynomial-time (NP-hard) type, metaheuristic algorithms be used. This article proposes two new energy-efficient routing methods based on Incremental Grey Wolf Optimization (I-GWO) Expanded (Ex-GWO) to find optimal paths. Moreover, study, general architecture has been...

The introduction of hybrid nanofluids is an important concept in various engineering and industrial applications. It used prominently applications, such as wider absorption range, low-pressure drop, generator cooling, nuclear system good thermal conductivity, heat exchangers, etc. In this article, the impact variable magnetic field on flow nano-fluid for improvement mass transmission investigated. main objective study to see (ferrous oxide water carbon nanotubes) CNTs-Fe3O4, H2O between two...

The aim of this research paper is to study two-dimension flow Casson hybrid nanofluid along with magnetic field, heat generation and absorption, viscous dissipation on a nonlinear extending surface. primary goal improve the transfer relationship, which in high demand manufacturing engineering industries. outputs will be used reduce energy consumption industry other fields,for example, achievement not enough, but also adjust consumptions possible only approve development transmission liquids...

Renewable energy has been seen as a viable solution to the problems of environmental degradation and crisis. This study examines long – short–run linkages between economic globalization, foreign direct investment (FDI), growth, renewable electricity consumption in China’s Belt Road Initiative (BRI) countries. Therefore, this uses Pooled Mean Group (PMG) autoregressive distributed lag (ARDL) technique measure relationship constructs based on data collected from 2000 2020. The overall results...

Alzheimer’s is a neurodegenerative disorder affecting the central nervous system and cognitive processes, explicitly impairing detailed mental analysis. Throughout this condition, affected individual’s abilities to process analyze information gradually deteriorate, resulting in decline. In recent years, there has been notable increase endeavors aimed at identifying disease addressing its progression. Research studies have demonstrated significant involvement of genetic factors, stress,...

This attempt numerically investigates the heat transfer in parabolic trough solar collectors due to rotating tube for hybrid nanofluid flow over Riga surface through Darcy Forchheimer’s porous medium under effect of radiation. The influences viscous dissipation and Joule heating are also considered. Equations governing fluid non-dimensionalized by implementing appropriate similarity variables. resulting ordinary differential equations solved using shooting technique with Adam Bashforth...

This study explores the effects of multiple shape factors on nanofluids within Marangoni mixed convection flows through porous media. Nanofluids, containing nanoparticles in a base fluid, show unique thermal properties, making them valuable cooling systems, energy storage, and medical devices. convection, driven by surface tension gradients, adds complexity to fluid dynamics heat transfer Analytical numerical analyses examine how various particle geometries, nanoparticle volume fractions,...

Temperature and liquid flow monitoring are required in many industrial applications order to maximize machine performance. When exploring polymers, fabricating synthetic films transparent materials, manufacturing metal-based equipment, frictional forces thermal rates need be controlled. The significance of the study prominent characteristics Diffusion-Thermo, Quadratic radiation absorption over a permeable stretching geometry discussed. Similarity transformations reduced boundary layer...

The effects of two types flow control devices, vortex generators (VGs) and Gurney flaps (GFs), on the power output performance a multi-megawatt horizontal axis wind turbine is presented. To that end, an improved blade element momentum (BEM)-based solver has been developed BEM-based computations have carried out National Renewable Energy Laboratory (NREL) 5 MW baseline turbine. results obtained from clean are compared with ones equipped devices. A significant increase in average found for all...

Considering the increasing integration of renewable energies into power grid, batteries are expected to play a key role in challenge compensating stochastic and intermittent nature these energy sources. Besides, deployment can increase benefits plant. One way profits with studied this paper is performing arbitrage. This strategy based on storing at low electricity price moments selling it when high. In paper, hybrid system consisting wind solar studied, an optimization process conducted...

In this article, the behavior of transient electroviscous fluid flow is investigated through squeezing plates containing hybrid nanoparticles. A nanofluid MoS2+Au/C2H6O2-H2O was formulated by dissolving components an inorganic substance such as molybdenum disulfide (MoS2) and gold (Au) in a base ethylene glycol/water. This non-liquid modeled various nonlinear mathematical models subsequently solved numerical well analytical methods. For solution ODEs, built-in function BVP4C used MATLAB,...

<abstract> <p>Theoretical analysis of physical characteristics unsteady, squeezing nanofluid flow is studied. The between two plates that placed parallel in a rotating system by keeping the variable properties: viscosity and thermal conductivity. It analyzed using Navier Stokes Equation, Energy Equation Concentration equation. prominent equations are transformed virtue suitable similarity transformation. Nanofluid model includes important effects Thermophoresis Brownian motion....