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Article
Mathematics
N. Ameer Zeeshan et al.
Summary: The current study investigates nanofluid flow between two infinite rotating horizontal channels. The porous and stretchable lower plate is considered. The effects of physical parameters such as Hall current, thermal characteristics, heat source/sink, and chemical reaction on velocity, temperature, and concentration profiles are analyzed through graphs. The governing equations are transformed and numerically solved using the RK4 approach and shooting technique. The study reveals the influence of factors such as Schmidt number and chemical reaction factor on the concentration profile, as well as the impact of suction factor and rotation factors on the velocity profile. Furthermore, the temperature field is influenced by thermophoresis factor, Brownian motion, and thermal radiation factor.
Article
Mathematics
R. S. Varun Kumar et al.
Summary: This article focuses on the transient thermal dispersal within a moving plate using the non-Fourier heat flux model. An innovative artificial neural network strategy with the Levenberg-Marquardt backpropagation scheme is proposed for determining the transient temperature. The energy model is simplified into a non-dimensional form, and the partial differential equation is numerically solved using the finite difference method.
Article
Thermodynamics
Gadamsetty Revathi et al.
Summary: This research investigates the effects of Dufour and Soret parameters on the properties of hybrid nanofluid flow between two parallel plates with temperature dependent electrical conductivity. The heat transport process is studied using thermal radiation parameter and Eckert number. The equations are solved using the bvp4c solver in MATLAB. Multiple linear regression is employed to explain physical parameters of interest, including Sherwood number. The main findings suggest that the velocity decreases with increasing nanoparticle volume fraction parameter and the concentration profile decreases with increasing Soret parameter. It is also observed that the fluid temperature increases with increasing Dufour number.
CASE STUDIES IN THERMAL ENGINEERING
(2023)
Article
Thermodynamics
Amal Abdulrahman et al.
Summary: This study aims to examine the thermal distribution and heat transfer in a longitudinal porous fin with an exponential profile wetted with hybrid nanoliquid. The governing ordinary differential equation is solved analytically using the improved residual power series method. The impact of various dynamic thermal parameters on thermal behavior is explored and compared with previous investigations, showing a high level of consistency.
CASE STUDIES IN THERMAL ENGINEERING
(2023)
Article
Thermodynamics
M. Hadi Ghasemi et al.
Summary: This study presents an analytic solution for the dual-phase-lag heat conduction in a functional graded cylindrical material. The results show that the dual-phase-lag model reaches steady temperature faster than the single-phase-lag model. The temperature stability in functional graded materials is influenced by the heterogeneity coefficient. The study provides a straightforward multivariate analytical solution for the non-Fourier conduction equation in a finite cylinder with functional graded materials and any boundary conditions.
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
(2022)
Article
Thermodynamics
Hadi Ali Madkhali et al.
Summary: This article develops a system of PDEs related to the simultaneous transport of heat and species in Maxwell fluid with mono and hybrid nano particles, using the generalized laws of Fourier and Fick based on thermal and solutal relaxation times. The developed PDEs are solved numerically using the finite element method. The simulations reveal that the thermal and concentration relaxation memory effects reduce the boundary layer thickness, and the simultaneous dispersion of copper and aluminium oxide improves heat transfer.
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
(2022)
Article
Nanoscience & Nanotechnology
Gohar et al.
Summary: This paper describes the Darcy-Forchheimer flow of Casson hybrid nanofluid through a curved surface and investigates the impact of flow variables on velocity and temperature profiles. The study finds that hybrid nanofluids are more effective in improving heat transfer rates.
JOURNAL OF NANOMATERIALS
(2022)
Article
Physics, Mathematical
E. D. Correa et al.
Summary: This study presents an analytical and numerical method for solving heat transfer nonlinear problems in porous fins using the Darcy model. By solving a sequence of linear problems, numerical simulations obtain an equivalent minimum principle, which converges to the solution of the original problem. The importance of radiation in realistic thermal mapping in porous media is demonstrated with up to 40% percentage errors at the last nodes.
ADVANCES IN MATHEMATICAL PHYSICS
(2022)
Article
Thermodynamics
Mohamed Ouni et al.
Summary: Solar energy is a significant thermal energy source used in various technologies such as solar water pumps and photovoltaic cells. Examining solar radiation technology is crucial for optimizing the performance of solar water pumps. The use of hybrid nanofluids with parabolic trough surface collectors has been developed to enhance heat transmission efficiency in solar water pumps.
CASE STUDIES IN THERMAL ENGINEERING
(2022)
Article
Thermodynamics
S. Hosseinzadeh et al.
Summary: This study investigates the thermal performance of a moving porous fin wetted with hybrid nanofluid with different cross-sections in the presence of a magnetic field. Three different cross-sections (trapezoidal, concave parabolic, and convex) are used as an innovation. The impact of various characteristics on the dimensionless temperature is thoroughly examined, and the results show that Akbari-Ganji's method has good accuracy in solving heat transfer equations related to moving porous fin.
CASE STUDIES IN THERMAL ENGINEERING
(2022)
Article
Thermodynamics
Abdelatif Salmi et al.
Summary: This study focuses on modeling two-phase chemical reactions in tangent hyperbolic fluid with nanoparticles and investigating the effects of various parameters using mathematical laws and models. The research findings reveal shear-thinning and shear-thickening behaviors, as well as the impact of particle resistance on heat dissipation and the difference in heat dissipation between hybrid and mono nanofluids. The Lorentz force induced by fluid motion with hybrid nanoparticles is greater than that induced by pure nanofluid. The thermal relaxation characteristics affect the equilibrium of the fluid and its temperature field.
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
(2022)
Article
Thermodynamics
Abdelatif Salmi et al.
Summary: This article analyzes the combined effects of Hall and ion slip currents, Darcy-Forchheimer porous medium, and non-uniform magnetic field on hybrid nanoparticles suspension. Mathematical models and numerical simulations are used to study the heat and mass transfer. The results show that the properties of ionized fluid influence the thickness of the thermal boundary layer and the fluid motion. Numerical experiments indicate that the relaxation time and mass diffusivity of hybrid nanofluid differ from those of mono nanofluid.
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
(2022)
Article
Thermodynamics
C. S. K. Raju et al.
Summary: This study investigates the flow and heat transfer characteristics of a nanofluid in a contracting or expanding porous channel with different permeability's in the presence of thermal radiation. The effects of various development variables on axial velocity and temperature distributions are analyzed. The study also compares the results with previous research and calculates the skin friction and Nusselt number for two cases of ternary mixtures.
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
(2022)
Article
Thermodynamics
Abdelatif Salmi et al.
Summary: In this article, a generalized modeling approach for simultaneous heat and mass transfer in non-Newtonian fluid in the presence of chemical reaction and heat generation is presented. Numerical simulations using finite element method (FEM) are used to solve the models. The results show good agreement with existing benchmarks.
CASE STUDIES IN THERMAL ENGINEERING
(2022)
Article
Thermodynamics
Abdelatif Salmi et al.
Summary: Here, novel models for heat flux and the convection-diffusion equation are used to study the flow of polymer fluid over a cylindrical heated body. The effects of spin gradient, vortex viscosity, and couple stresses are considered. The problems are solved using the finite element method and the results are compared with published benchmarks. Simulations are used to analyze the impact of parameters on flow variables.
CASE STUDIES IN THERMAL ENGINEERING
(2022)
Article
Thermodynamics
Balaram Kundu et al.
Case Studies in Thermal Engineering
(2022)
Article
Chemistry, Multidisciplinary
Nimer Murshid et al.
Summary: The study examines the flow characteristics of a hybrid nanofluid in squeezing flow with activation energy and entropy generation, showing the impact of relevant parameters on engineering parameters through graphs. The squeezing number intensifies velocity profiles, while the rotating parameter decreases fluid velocity.
Article
Thermodynamics
Hassan Waqas et al.
Summary: This research investigates the effects of the Powell-Eyring model and Cattaneo-Christov heat flux model on a moving surface using hybrid nanofluids with slip boundary conditions. The numerical results obtained from MATLAB indicate that hybrid nanofluids have higher heat transfer efficiency than nanofluids.
CASE STUDIES IN THERMAL ENGINEERING
(2022)
Article
Thermodynamics
Ri Zhang et al.
Summary: This study focuses on the flow and heat transmission of a three-dimensional boundary layer flow of a hybrid nanofluid. The study examines the effects of different compositions and temperatures on the velocity and temperature distribution. The results show that the friction factor and heat transfer rate vary with different compositions and temperatures.
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
(2022)
Article
Physics, Multidisciplinary
Uzma Arif et al.
Summary: The objective of this study is to explore the thermal transport in the Maxwell hybrid nanofluid model using generalized heat flux theory. Special attention is given to monitor the thermal transfer by mixing different types of nanoparticles in the Maxwell fluid. The behavior of velocity and temperature fields are studied against different emerging parameters and the impact of relaxation time and role of nanoparticles on heat transfer is analyzed.
WAVES IN RANDOM AND COMPLEX MEDIA
(2022)
Article
Thermodynamics
M. Nabati et al.
Summary: The study explores the potential of porous fins to enhance thermal performance in traditional fin applications, incorporating factors such as magnetic fields, radiation heat transfer, and porous media.
JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY
(2021)
Review
Engineering, Multidisciplinary
Xin Liu et al.
Summary: Machine learning models, especially artificial neural networks, are increasingly used in engineering fields. However, there are still unsolved issues hindering the acceptance of ANN models in the practical design and analysis of composite materials. The emerging machine learning techniques pose both new opportunities and challenges in the data-based design paradigm.
COMPOSITES PART B-ENGINEERING
(2021)
Article
Thermodynamics
Ranjan Das et al.
Summary: This paper demonstrates an inverse methodology for predicting internal heat generation and magnetic field strength in a radial porous fin using the Artificial Bee Colony (ABC) algorithm. The study found a linear relationship between magnetic field strength, heat generation, and temperature distribution. The ABC algorithm accurately reconstructs conditions and establishes relationships between parameters with high accuracy.
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
(2021)
Article
Energy & Fuels
Juan Duan et al.
Summary: Studies show that the porosity of metal foam has a greater influence on the melting and heat transfer of PCM than the pore density. The experimental results are used to train an ANN model that predicts various parameters of the PCM-porous system during the heat transfer process, and a classification ANN model is developed to predict the porosity of metal foam based on different variables.
JOURNAL OF ENERGY STORAGE
(2021)
Article
Materials Science, Ceramics
S. L. Guo et al.
Summary: This study examines the thermoelastic fields of semi-infinite ceramics subjected to surface heating shock using the non-Fourier C-V model, with the introduction of a family of exponential functions to simulate the heating process. It is found that the significant time range and spatial scale of the non-Fourier effect have been determined, and the thermal stress increases and converges along depth. The domain where the maximum thermal stresses influenced by non-Fourier heat conduction are influenced is also identified in the plane of dimensionless heating duration vs thermoelastic wave speed.
CERAMICS INTERNATIONAL
(2021)
Article
Thermodynamics
Hu Ge-JiLe et al.
Summary: This study investigates the flow, heat and mass transfer behavior of magnetohydrodynamic radiated ferrofluid flow caused by a cone in the presence of non-uniform heat source/sink. It is found that mixing of magnetic nanoparticles with water at different temperatures results in different friction factor coefficients, heat transfer rates and mass transfer rates. Depending on industrial applications, either heating or cooling processes using specific temperature mixtures of magnetic nanoparticles with water can be utilized.
CASE STUDIES IN THERMAL ENGINEERING
(2021)
Article
Thermodynamics
Bernardo Buonomo et al.
Summary: In this study, an analytical solution was derived for a porous fin with natural convection and radiation heat transfer using the Local Thermal Non-Equilibrium model. The results showed that as the Biot and Rayleigh numbers decrease, the solid phase temperature decreases and the difference between solid and fluid phase temperatures reduces. Additionally, an increase in thermal conductivity ratio and dimensionless thickness results in higher solid phase temperatures.
APPLIED THERMAL ENGINEERING
(2021)
Article
Engineering, Multidisciplinary
Jitendra et al.
Summary: In this study, a one-dimensional non-Fourier heat conduction model was proposed for phase change problems with variable internal heat generation, solved using the FELWGM method. The stability analysis of the model was derived, and the location of the moving interface under steady-state conditions was obtained analytically. The effectiveness of the numerical technique was verified through experimental parameters, and the effects of different factors on the moving interface location were discussed in detail.
JOURNAL OF ENGINEERING MATHEMATICS
(2021)
Article
Mathematics, Applied
M. Nabati et al.
Summary: This article employs the Sinc-Galerkin algorithm to investigate the thermal performance of moving porous fins subject to nanoliquid flow, considering different shapes of nanoparticles. The numerical results show that spherical nanoparticles have the greatest influence on the rate of heat flux, while wet porous parameters enhance the thermal features of permeable fins.
MATHEMATICAL SCIENCES
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APPLIED THERMAL ENGINEERING
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ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING
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JOURNAL OF THERMOPHYSICS AND HEAT TRANSFER
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INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
(2018)
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A. V. Pasha et al.
ALEXANDRIA ENGINEERING JOURNAL
(2018)
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Ranjan Das et al.
NEURAL COMPUTING & APPLICATIONS
(2017)
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M. Turkyilmazoglu
JOURNAL OF HEAT TRANSFER-TRANSACTIONS OF THE ASME
(2017)
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Engineering, Aerospace
Ranjan Das
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART G-JOURNAL OF AEROSPACE ENGINEERING
(2016)
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Engineering, Mechanical
H. Ahmadikia et al.
JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY
(2011)
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F. Khani et al.
COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION
(2010)
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A. A. Joneidi et al.
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
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