An increasing interest in heat transfer of industrial working fluids and thermal applications nanofluids propels the advancement nanotechnology. Recently, focuses have been shifted to hybridization with aim enhancing propagation rate conventional fluids. Hence, this study, elastic deformation radiation convection for hybridized SWCNT-Ag MWCNT-MoS4 magneto-nanomaterials engine oil is examined. The hybrid occurs a vertical cylinder thermofluidic features being considered model formulation....

Nanofluid plays a crucial role in addressing the heat transmission challenges facing industries including chemical processing systems, automobile radiators, spacecraft design, concrete heating, solar thermal conversion etc. Consequently, this research is devoted to analyzing radiation mechanism, thermophoresis and Brownian motion under unique conditions, specifically, temperature gradient within liquids with limiting viscosities or plastic dynamic viscosity at zero infinite shear rate. To...

The need for a consistent and reliable energy supply to improve productivity is steadily increasing both in industrial residential settings. fulfillment of this requirement can be effectively achieved by implementing quadratic thermal radiation, such as utilizing an appropriate thermoelectric generator power optimizing the optical heat process. This research investigates three different radiation models, namely linear, quadratic, nonlinear on two-phase boundary layer flow dusty nanofluid...

Abstract This study investigates the heat and mass transfer in an unsteady squeezing flow between parallel plates under influence of novel variable diffusivity. In most literature, it is believed that thermophysical properties fluid are unchanged. However, this present bridges gap by assuming viscosity, conductivity, diffusivity all temperature‐dependent. Physically, appropriate analysis variables such a system required to achieve best performance for effective processes. The equations...

This study examines the potential of using nanofluids in solar thermal energy systems. Nanofluids are known to exhibit high convection heat transfer coefficients, low specific heat, and density, making them ideal for improving performance However, this computational investigates application Cattaneo-Christov flux on cylindrical surfaces carbon nanotube (CNT) hybrid nanofluids, use a solar-powered ship. The work utilizes numerical simulations analyze fluid flow characteristics nanofluids....

The limited availability of non-renewable energy resources, the need to protect ecosystems, and financial considerations create a powerful driving force for studying renewable improving thermal systems. utilization solar radiation nanofluids containing polyvinyl alcohol–water-based fluids with copper nanoparticles offers an opportunity improve efficiency sustainable heating Owing its usage, this research examines electromagnetohydrodynamic transfer Jeffrey nanofluid flow over stretchable...

The modern world uses sun-based thermal radiation and nanotechnology to promote new technologies. In addition solar aircraft, photovoltaic cells, hybrid nanofluids, energy is the primary source of heat derived from absorption sunlight. Researchers are currently investigating application with intent enhancing efficiency aircraft flight. This study focused on research transport via employing nanofluid interior wings using a parabolic trough collector (PTSC) enrich investigations wing....

The demand for efficient applications of solar energy and nanomaterials has grown significantly in recent years due to industrial needs the desire minimize consumption costs. However, efficiency photovoltaic cells solar-powered ships is highly dependent on radiation. In this study, a model installation parabolic trough surface collector (PTSC) was developed achieve high temperatures ships. current study analyzed thermal characterization function under effect heat radiation, magnetic field,...

The aim of this research is to explore the use solar-powered ships (SPS) as a means reduce greenhouse gas emissions and fossil fuel dependency in maritime industry. study focuses on improving heat transfer efficiency SPS by employing hybrid nanofluids (HNF) containing carbon nanotubes (CNTs). Additionally, novel approach utilizing renewable energy electromagnetic control proposed enhance performance SPS. implements non-Newtonian Maxwell type Cattaneo-Christov flux model parabolic trough...

Hybrid nanofluids have received remarkable attention due their promising thermal performance compared to conventional nanofluids. The use of hybrid is widely found in the pumping power, solar collector, electronic components, coolants nano devices, and engine applications etc. Such types grabbed attentionof researchers scientistswith aim understand depththe problems involving Therefore, primary objective present investigationis investigatethe nanofluid consisting asuspension aluminum alloys...

The growing need for reliable energy supply to enhance productivity in industrial and residential sectors underscores the importance of conserving solar energy. This can be achieved through measures such as optimizing collector coatings optical heat processes. environmental risks posed by fossil fuels, like coal diesel, electricity generation, further highlight urgency seeking alternative solutions. Solar has emerged a highly promising option, capturing global attention its potential improve...

The rising industrial demand for technological advancement in improving their working fluids and thermal augmentation has prompted studies on various non-Newtonian nanofluids. These play momentous role many engineering devices electronics development. Therefore, this study seeks to examine the performance of ternary hybridized magneto-couple stress nanofluids permeable media with nonlinear thermofluidic properties. dispersion suspended cobalt ferrite CoFe2O4, titanium dioxide TiO2 magnesium...

The management of thermal propagation and preservation heat energy are major challenges facing the industry science in recent times. Various studies have arisen on nanoparticles different volume fraction for an enhanced transfer. Thus, limited reports been offered dispersion titanium dioxide TiO2, cylindrical magnesium oxide MgO platelet aluminum Al Prandtl-Eyring water-based at temperature experiencing force convection. Meanwhile, these nanoparticles' hybridization served has essential...

Abstract The primary heat source from the sunlight is solar energy (SE), which used in photovoltaic (PV) panels, power plates, PV, streetlights, and solar-based hybrid nanocomposites. Currently, research focused on analyzing improving efficiency of SE, particularly for powering aircraft, by combining with nanotechnology advancements. As such, this study focuses examining concentrated proposes a method to improve performance airplanes employing nanotechnology. Furthermore, work based...

The interest in improving the industrial and engineering working fluid for optimal productivity inspired studies on various materials. Cauchy stress tensor fluids with suitable non-Newtonian rheological properties will enhance fluids. Thus, Eyring-Powell applicable serves as a platform to promote base As such, this study examines tiny particle thermal radiation propagation binary reactive generalized Arrhenius kinetics fluid. A theoretical partial derivative boundary value model is developed...

The research of heat and mass transfer enhancement is influenced by several physical effects such as thermal conductivity, heterogeneous catalytic reaction, source/sink, radiation suction/injection, a significant area study, particularly in the field applied materials science, nanotechnology mechanical engineering. main objective this to analyze explore novel ternary hybrid nanofluids binary nanofluid flow while considering influences control parameters mentioned earlier. model developed for...