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Thermodynamics
S. Shaw et al.
Summary: The steady hydromagnetic flow and heat transfer behavior of non-Newtonian (Cross) hybrid nanofluid with water as base fluid and SWCNT, and MWCNT as nanoparticles past a stretched cylinder has been analyzed. The contributory outcomes of the present investigation include upgraded Weissenberg and curvature parameters intensify the fluid motion and rate of heat transportation while that of magnetic field strength controls the motion.
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
(2022)
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Ying-Qing Song et al.
Summary: This study presents an analysis of an unsteady and incompressible flow of Williamson nanoliquid in the presence of variable thermal characteristics. By utilizing appropriate similarity variables, the equations for energy, momentum, and mass are converted into non-linear ODEs. The numerical solution of the boundary value problem is successfully implemented using a computer algorithm, confirming the accuracy of the results.
ALEXANDRIA ENGINEERING JOURNAL
(2022)
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Fazal Haq et al.
Summary: This research investigates the heat transfer performance in stratified flow of hybrid nanoliquid over permeable stretched cylinder. The study focuses on heat transfer in a hybrid base fluid composed of ethylene glycol and water, with the addition of copper and alumina nanoparticles. The effects of porosity, Darcy-Forchheimer, Joule heating, radiation, viscous dissipation, and stratification on the thermal boundary are considered. The governing partial differential equations are transformed into ordinary differential equations and solved using the ND solve code in the MATHEMATICA package. The results show that velocity field and fluid temperature decrease with increasing porosity and Hartmann variables, while they decrease with decreasing Prandtl number and stratification parameter.
CHINESE JOURNAL OF PHYSICS
(2022)
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Thermodynamics
Manoj Kumar Nayak et al.
Summary: This study investigates the effects of Cattaneo-Christov double diffusion, multiple slips, and Darcy-Forchheimer on entropy optimized and thermally radiative flow, thermal and mass transport of hybrid nanoliquids past a stretched cylinder. The research presents a model featuring the Casson fluid model and Darcy-Forchheimer model, and uses numerical methods to analyze the results, showing that curvature parameters affect fluid velocity, and other parameters have varying effects on temperature and solutal field distribution.
INTERNATIONAL JOURNAL OF NUMERICAL METHODS FOR HEAT & FLUID FLOW
(2022)
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Chemistry, Physical
Piyu Li et al.
Summary: The thermal properties of nanofluid play a significant role in various engineering and industrial processes, especially in the field of bioengineering and biotechnology. This study investigates the peristaltic transport of nanofluid in a curved geometry channel with the application of Hall effects. The results show that the magnetic parameter enhances the heat transfer coefficient.
COLLOID AND INTERFACE SCIENCE COMMUNICATIONS
(2022)
Article
Nanoscience & Nanotechnology
P. K. Mandal et al.
Summary: The unsteady MHD rotating flow of carbon nanotube water nanofluid past a stretching surface is analyzed in this study, taking into account thermal radiation mechanism and heat source/sink. The mathematical model consists of a system of non-linear coupled PDEs. The numerical solution is obtained and analyzed, and the influence of dominant flow parameters on temperature profiles and flow field are discussed using tables and graphs. Important results are obtained, including the effects of unsteadiness, fluid rotation, and nanoparticle volume fraction on the velocity and temperature of the fluid.
JOURNAL OF NANOFLUIDS
(2022)
Article
Engineering, Multidisciplinary
Zahid Hussain et al.
Summary: The peristaltic phenomenon is widely used in bio-mechanics, industries, and biological sciences. This theoretical analysis focuses on the peristaltic flow of magnetized Jeffery fluid through a curved channel with heat transfer. The study finds that the temperature decreases with increasing viscoelastic parameter, the heat transfer coefficient increases with the radius of curvature, and the fluid velocity decreases in the lower half of the channel and increases near the upper wall.
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(2022)
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Lei Zhang et al.
Summary: This study investigates the bioconvection flow of tiny fluid carrying nanoparticles between two concentric cylinders and focuses on the contribution of Lorenz force to the bioconvection thermal transport of the particles. The results show that the flow velocity can be controlled externally through the magnetic field, and an increase in Schmidt numbers leads to higher nanoparticle concentration and motile density.
Article
Thermodynamics
Khursheed Muhammad et al.
Summary: This study investigates the unsteady squeezed flow behavior of hybrid nanofluid and compares the thermal transfer characteristics of different hybrid nanofluids and nanofluids. Numerical analysis shows changes in fluid velocity, temperature, etc., indicating the more efficient performance of hybrid nanofluid.
JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY
(2021)
Article
Thermodynamics
B. Mahanthesh et al.
Summary: The paper investigates the laminar transport of magneto-composite nanofluid over an isothermal wedge, taking into account the characteristics of composite nanomaterials and heat transfer effects. The solution to the simplified coupled system is obtained using numerical methods, and detailed analysis of physical quantities of interest is carried out.
JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY
(2021)
Article
Engineering, Chemical
M. Ijaz Khan et al.
Summary: This study investigated the entropy-optimized second order velocity slip Darcy-Forchheimer hybrid nanofluid flow between two rotating disks, considering graphene oxide and titanium dioxide as hybrid nanoparticles and water as continuous phase liquid. It was found that entropy generation rate and Bejan number have similar effects on the diffusion parameter, while entropy generation rate is more sensitive to higher Brinkman number.
CHINESE JOURNAL OF CHEMICAL ENGINEERING
(2021)
Article
Thermodynamics
Abdulmajeed Almaneea
Summary: The study focused on thermal enhancement in hybrid nano-ferrofluid and conducted a parametric study on fluid flow and heat transfer energy based on computed solutions of conservation equations. Results indicated that different porous media have varying resistive forces on fluid flow, affecting convective heat transfer. Dissipation effects led to increased temperature and thermal boundary layer thickness. Hybrid nanofluid showed stronger heat dissipation than nanofluid, with higher wall shear stress and lower Nusselt number with increased ferro-hydrodynamic parameter. Additionally, viscous dissipation resulted in increased heat transfer rate in the presence of a porous medium compared to fluid without it.
CASE STUDIES IN THERMAL ENGINEERING
(2021)
Article
Thermodynamics
Umair Khan et al.
Summary: The current study investigates the advantages of using hybrid nanofluid in improving thermal performance and heat transfer rate in cooling and heating processes, focusing on the impact of non-Fourier heat flux and magnetic effects on temperature and velocity in Blasius-Rayleigh-Stokes flow. The results show that hybrid nanoparticles increase temperature but decrease velocity, while acute angles accelerate velocity but decelerate temperature, demonstrating the efficiency and reliability of the proposed technique compared to previous outcomes.
CASE STUDIES IN THERMAL ENGINEERING
(2021)
Article
Thermodynamics
M. K. Nayak et al.
Summary: The investigation analyzed the flow and heat transfer behavior of a non Newtonian fluid subject to an externally inclined magnetic field. The study revealed that the increase in magnetic field strength has an opposite effect on fluid velocity and temperature, while factors such as thermal relaxation time and curvature parameter play a role in controlling the rate of heat transportation. Additionally, the angle of inclination of the magnetic field affects the fluid flow in a reverse manner.
CASE STUDIES IN THERMAL ENGINEERING
(2021)
Article
Thermodynamics
Satya Subha Shree Sen et al.
Summary: This study analyzed the flow of Diamond-Co3O4/EG hybrid nanofluid towards a stretching sheet under the influence of magnetic field and nonlinear thermal radiation, including catalytic properties of homogeneous-heterogeneous reactions. The results showed that higher magnetic parameter values led to a decrease in fluid velocity, while the temperature profile of the fluid increased in the presence of nonlinear radiation. Additionally, the hybrid nanofluid was found to be more efficient in heat transfer compared to the corresponding nanofluid.
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
(2021)
Article
Computer Science, Interdisciplinary Applications
Khurram Javid et al.
Summary: This study investigates the transport of biological fluids through non-uniform channels and the hydrodynamics of cilia under an applied axial electric field. Mathematical formulations and numerical simulations reveal the significant impact of non-uniform parameters on fluid dynamics, providing insights into complex transportation processes in medical science.
COMPUTER METHODS AND PROGRAMS IN BIOMEDICINE
(2021)
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Materials Science, Multidisciplinary
Umair Rashid et al.
Summary: This study investigates the impact of different shapes of nanoparticles on the flow of (Ag-TiO2)/water hybrid nanofluid, using the homotopy analysis method to find analytical solutions and comparing the results with previous research. The study shows that spherical nanoparticles exhibit better temperature disturbance and heat transfer in hybrid nanofluid flow.
RESULTS IN PHYSICS
(2021)
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Yu-Ming Chu et al.
Summary: This study discusses the thermophoresis particle deposition effects of magneto-Walter's B nanofluid induced by a stretched surface under the action of pressure and buoyant forces, utilizing the Buongiorno nanofluid model. The analysis incorporates chemical reaction, Joule heating, and non-linear radiation relations, with the results showing that the heat thermal Biot number, thermophoretic constant, and viscoelastic parameter increase the nanofluid temperature and concentration while a decaying concentration profile is observed for the Schmidt number.
ALEXANDRIA ENGINEERING JOURNAL
(2021)
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Thermodynamics
Zahra Abdelmalek et al.
Summary: This paper explores the consolidation power of different nanomaterials in a hybrid material, focusing on metallic and metallic-oxides nanoparticles. A developed MHD-hybrid model for a thermal energy system with seven types of nanoparticles is analyzed, with emphasis on the morphology and size factor of each nanoparticle. The research investigates the effect of morphology of metallic and non-metallic nanoparticles on flow and heat transfer rate in hybrid nanofluids.
CASE STUDIES IN THERMAL ENGINEERING
(2021)
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Thermodynamics
A. Abbasi et al.
Summary: This paper investigates a generalized Newtonian nanofluid in a bio-microfluidics channel under the combined effects of peristalsis and an external applied electric field, considering thermal radiation and Joule heating. Non-linear coupled ordinary differential equations are numerically simulated, showing the impacts of various parameters on velocity, temperature, concentration, and heat and mass transfer. The results are beneficial for designing micro pumps/chips in medical engineering and enhancing the thermal efficiency and durability of microchip cooling devices.
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
(2021)
Article
Physics, Multidisciplinary
Seyed Mahdi Mousavi et al.
Summary: This study investigates the two-dimensional MHD Casson flow past a linearly stretching/shrinking sheet with suction, radiation, and convective boundary condition effects by employing experimental relations to approximate the effective thermophysical properties of a water/MgO-Ag hybrid nanofluid. It also considers dual solutions and stability analysis, demonstrating the importance of selective experimental relations in future numerical modeling of hybrid nanofluids. Results show an enhancement of the Casson fluid parameter range with increasing radiation parameter, suction parameter, and second nanoparticle mass, as well as the acceleration of similarity velocity profiles in the hydrodynamic boundary layer due to a magnetic field applied normal to the sheet.
CHINESE JOURNAL OF PHYSICS
(2021)
Article
Thermodynamics
Nur Syahirah Wahid et al.
Summary: Researchers have realized the importance of porous medium and hybrid nanofluid in enhancing heat transfer process. By exploring Marangoni hybrid nanofluid flow over a permeable infinite disk in a porous medium, it was found that increases in copper volume fraction, porosity, and suction parameters can enhance heat transfer rate and decelerate boundary layer bifurcation at the shrinking disk.
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
(2021)
Article
Chemistry, Physical
J. K. Madhukesh et al.
Summary: The study investigates the flow and heat transfer characteristics of AA7072-AA7075/water-based hybrid nanofluid over a curved stretching sheet, showing that increasing curvature, Newtonian heating, and thermal relaxation parameters improves the heat transfer rate. Novelty lies in the thermal mechanism analysis of AA7072-AA7075 nanoparticles for enhancing heat transfer performance.
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