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Journal articles on the topic 'Accelerated Inclined Porous Plate'

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Published: 3 June 2025
Last updated: 31 July 2025

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1

Seth, G. S., R. Tripathi, R. Sharma, and A. J. Chamkha. "MHD Double Diffusive Natural Convection Flow Over Exponentially Accelerated Inclined Plate." Journal of Mechanics 33, no. 01 (2016): 87–99. http://dx.doi.org/10.1017/jmech.2016.56.

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AbstractAn investigation of unsteady MHD double diffusive natural convection flow of a viscous, incompressible, electrically conducting, heat absorbing, radiating and chemically-reactive fluid past an exponentially accelerated moving inclined plate in a fluid-saturated porous medium, when the temperature of the plate and the concentration at the surface of the plate have ramped profiles, is carried out. Exact solutions for the fluid velocity, fluid temperature and the species concentration, under Boussinesq approximation, are obtained in closed form by the Laplace transform technique. The expr
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2

Seth, G. S., R. Tripathi, R. Sharma, and A. J. Chamkha. "MHD Double Diffusive Natural Convection Flow Over Exponentially Accelerated Inclined Plate." Journal of Mechanics 33, no. 1 (2016): 87–99. http://dx.doi.org/10.1017/.2016.56.

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AbstractAn investigation of unsteady MHD double diffusive natural convection flow of a viscous, incompressible, electrically conducting, heat absorbing, radiating and chemically-reactive fluid past an exponentially accelerated moving inclined plate in a fluid-saturated porous medium, when the temperature of the plate and the concentration at the surface of the plate have ramped profiles, is carried out. Exact solutions for the fluid velocity, fluid temperature and the species concentration, under Boussinesq approximation, are obtained in closed form by the Laplace transform technique. The expr
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3

G., Sivaiah, and Jayarami Reddy K. "UNSTEADY MHD HEAT AND MASS TRANSFER FLOW OF A RADIATING FLUID PAST AN ACCELERATED INCLINED POROUS PLATE WITH HALL CURRENT." International Journal of Research - Granthaalayah 5, no. 7 (2017): 42–59. https://doi.org/10.5281/zenodo.826850.

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In this paper an analysis has been performed to study the effects of Hall current and radiation of MHD free convective heat and mass transfer flow of a radiating fluid past an accelerated inclined porous plate with hall current in presence of thermal diffusion and heat source. The solutions for velocity, temperature and concentration distributions are obtained by using Laplace transform technique. The expressions for skin friction, Nusselt number and Sherwood number are also derived. The variations in fluid velocity, temperature and species concentration are shown graphically, whereas numerica
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4

Sivaiah, G., and K. Jayarami Reddy. "UNSTEADY MHD HEAT AND MASS TRANSFER FLOW OF A RADIATING FLUID PAST AN ACCELERATED INCLINED POROUS PLATE WITH HALL CURRENT." International Journal of Research -GRANTHAALAYAH 5, no. 7 (2017): 42–59. http://dx.doi.org/10.29121/granthaalayah.v5.i7.2017.2107.

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In this paper an analysis has been performed to study the effects of Hall current and radiation of MHD free convective heat and mass transfer flow of a radiating fluid past an accelerated inclined porous plate with hall current in presence of thermal diffusion and heat source. The solutions for velocity, temperature and concentration distributions are obtained by using Laplace transform technique. The expressions for skin friction, Nusselt number and Sherwood number are also derived. The variations in fluid velocity, temperature and species concentration are shown graphically, whereas numerica
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5

Prabhakar Reddy, B., M. H. Simba, and Alfred Hugo. "Effects of Thermodiffusion and Chemical Reaction on Magnetohydrodynamic-Radiated Unsteady Flow Past an Exponentially Accelerated Inclined Permeable Plate Embedded in a Porous Medium." International Journal of Chemical Engineering 2023 (April 25, 2023): 1–11. http://dx.doi.org/10.1155/2023/9342174.

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A finite difference computational study is conducted to assess the influence of thermodiffusion and chemical reaction on unsteady free convective radiated magnetohydrodynamic flow past an exponentially accelerated inclined permeable plate embedded in a saturated porous medium of uniform permeability with variable temperature and concentration. The governing nondimensional set of coupled nonlinear partial differential equations with related initial and boundary conditions are solved numerically by using the accurate and efficient DuFort–Frankel’s explicit finite difference method. The physical
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6

Endalew, Mehari Fentahun, and Anita Nayak. "Thermal radiation and inclined magnetic field effects on MHD flow past a linearly accelerated inclined plate in a porous medium with variable temperature." Heat Transfer-Asian Research 48, no. 1 (2018): 42–61. http://dx.doi.org/10.1002/htj.21367.

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7

Kesavaiah, D. Chenna. "Radiation Absorption and Chemical Reaction Effects on MHD Flow through Porous Medium Past an Exponentially Accelerated Inclined Plate." International Journal for Research in Applied Science and Engineering Technology 6, no. 6 (2018): 1370–81. http://dx.doi.org/10.22214/ijraset.2018.6199.

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8

Endalew, Mehari Fentahun, and Subharthi Sarkar. "Incidences of aligned magnetic field on unsteady MHD flow past a parabolic accelerated inclined plate in a porous medium." Heat Transfer 50, no. 6 (2021): 5865–84. http://dx.doi.org/10.1002/htj.22153.

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9

Sivaiah, G., and K. Jayarami Reddy. "Unsteady MHD Heat And Mass Transfer Flow Of A Radiating Fluid Past An Accelerated Inclined Porous Plate With hall Current." IOSR Journal of Mathematics 12, no. 05 (2016): 24–36. http://dx.doi.org/10.9790/5728-1205052436.

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10

Pattnaik, Jyotsna Rani, Gouranga Charan Dash, and Suprava Singh. "Radiation and mass transfer effects on MHD flow through porous medium past an exponentially accelerated inclined plate with variable temperature." Ain Shams Engineering Journal 8, no. 1 (2017): 67–75. http://dx.doi.org/10.1016/j.asej.2015.08.014.

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11

Rajaiah, M., A. Sudhakaraiah, S. V. K. Varma, and P. Venkatalakshmi. "Chemical And Soret Effect On MHD Free Convective Flow Past an Accelerated Vertical Plate in Presence of Inclined Magnetic Field Through Porous Medium." i-manager’s Journal on Mathematics 4, no. 1 (2015): 32–39. http://dx.doi.org/10.26634/jmat.4.1.3235.

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12

Rajput, Uday Singh, and Gaurav Kumar. "Unsteady MHD flow in porous media past over exponentially accelerated inclined plate with variable wall temperature and mass transfer along with Hall current." International Journal of Engineering, Science and Technology 8, no. 2 (2016): 1. http://dx.doi.org/10.4314/ijest.v8i2.1.

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13

Magiboi Nalisi, Gilbert. "Unsteady MHD Free Convective Flow Past an Inclined Parabolic Accelerated Plate with Hall Current, Radiation Effects and Variable Temperature in a Porous Medium." International Journal of Management and Fuzzy Systems 3, no. 2 (2017): 15. http://dx.doi.org/10.11648/j.ijmfs.20170302.11.

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14

Obulesu Mopuri, Raghunath Kodi, Charankumar Ganteda, Ramu Srikakulapu, and Giulio Lorenzini. "MHD Heat and Mass Transfer Steady Flow of a Convective Fluid Through a Porous Plate in The Presence of Diffusion Thermo and Aligned Magnetic Field." Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 89, no. 1 (2021): 62–76. http://dx.doi.org/10.37934/arfmts.89.1.6276.

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In the presence of a diffusion thermal and coupled magnet field effect, this manuscript seeks continuous free convective motion by a viscous, incompressible fluid that conducts electrically past a sloping platform via a porous medium. The free flow speed may be compatible with the exponentially tiny disrupting law. Two-term harmonic and non-harmonic functions solve dimensional-less control equations analytically. Detailed graphs are used to determine the budgets for tempo, temperature, and concentration for various limit calculations. Also, the numbers of Nusselt and Sherwood are given and eva
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15

Ahmmed, S. F., R. Biswas, and M. Afikuzzaman. "Unsteady Magnetohydrodynamic Free Convection Flow of Nanofluid Through an Exponentially Accelerated Inclined Plate Embedded in a Porous Medium with Variable Thermal Conductivity in the Presence of Radiation." Journal of Nanofluids 7, no. 5 (2018): 891–901. http://dx.doi.org/10.1166/jon.2018.1520.

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16

CHO, I. H., and M. H. KIM. "Wave absorbing system using inclined perforated plates." Journal of Fluid Mechanics 608 (July 11, 2008): 1–20. http://dx.doi.org/10.1017/s0022112008001845.

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The interaction of oblique monochromatic incident waves with horizontal/inclined/dual porous plates is investigated in the context of two-dimensional linear potential theory and Darcy's law (the normal velocity of fluid passing through a thin porous plate is linearly proportional to the pressure difference across it). The developed theory is verified by both small-scale and full-scale experiments. First, matched eigenfunction expansion (MEE) solutions for a horizontal porous plate are obtained. The relationship between the plate porosity and the porous parameter is obtained from systematic mod
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17

Nagarajan, G., M. Sundar Raj, and R. Muthucumaraswamy. "The Influence of Thermal Expansion on Flow Past an Inclined Accelerated Sectional Plate with Persistent Mass Diffusion." International Journal of Applied Mechanics and Engineering 27, no. 4 (2022): 105–16. http://dx.doi.org/10.2478/ijame-2022-0053.

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Abstract In this article, we examined the solution of a homogeneously intensified isothermal inclined infinite plate with constant temperature. The plate is elevated to Tw , and the species accumulation is enhanced at a consistent speed. Under appropriate boundary conditions, the non-dimensional guiding formulae are remedied using the Laplace transform procedure. The effect of velocity, temperature, and concentration on various factors, including thermal and mass Grashof numbers, Schmidt numbers, and duration, is discussed. The velocity increases proportionally to the thermal and mass Grashof
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18

Abdolreza Gandjalikha Nassab, Seyed. "EFFECTS OF GAS RADIATION AND ACCELERATED FLOW ON SOLAR HEATER PERFORMANCE." Journal of the Serbian Society for Computational Mechanics 18, no. 1 (2024): 79–93. https://doi.org/10.24874/jsscm.2024.18.01.06.

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In this paper, the performance enhancement of solar gas heaters is evaluated by taking the advantage of both radiating gas effect and using converged ducts with the accelerated flow. The analyzed solar gas heater includes the glass cover, air gap, absorber, gas channel, bottom plate, and insulation. The inclined position of the bottom plate relative to the absorber provides a converged shape for the duct of the heater. For the free convection airflow inside the air gap and forced convection gas flow in the heater’s duct, the CFD-based numerical simulations are carried out by the finite element
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19

Islam, Manjiul. "Mass Transfer Flow Through an Inclined Plate with Porous Medium." American Journal of Applied Mathematics 3, no. 5 (2015): 215. http://dx.doi.org/10.11648/j.ajam.20150305.12.

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20

Mukhin, V. A., V. E. Nakoryakov, P. T. Petrik, and G. S. Serdakov. "Vapor condensation on an inclined plate within a porous medium." Journal of Applied Mechanics and Technical Physics 26, no. 5 (1986): 679–83. http://dx.doi.org/10.1007/bf00915318.

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21

Madhukesh, Javali Kotresh, Ioannis E. Sarris, Ballajja Chandrappa Prasannakumara, and Amal Abdulrahman. "Investigation of Thermal Performance of Ternary Hybrid Nanofluid Flow in a Permeable Inclined Cylinder/Plate." Energies 16, no. 6 (2023): 2630. http://dx.doi.org/10.3390/en16062630.

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This article comprehensively investigates the thermal performance of a ternary hybrid nanofluid flowing in a permeable inclined cylinder/plate system. The study focuses on the effects of key constraints such as the inclined geometry, permeable medium, and heat source/sink on the thermal distribution features of the ternary nanofluid. The present work is motivated by the growing demand for energy-efficient cooling systems in various industrial and energy-related applications. A mathematical model is developed to describe the system’s fluid flow and heat-transfer processes. The PDEs (partial dif
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22

Zafar, Azhar Ali, and Sajjad Hussain. "Dynamic Interactions: Non-Integer-Order Heat-Mass Transfer in Magnetohydrodynamic Flow of Non-Newtonian Fluid over Inclined Plates." Symmetry 16, no. 7 (2024): 826. http://dx.doi.org/10.3390/sym16070826.

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The heat and mass transfer phenomenon in the presence of a moving magnetic field has a wide range of applications, spanning from industrial processes to environmental engineering and energy conversion technologies. Understanding these interactions enables the optimization of various processes and the development of innovative technologies. This manuscript is about a non-integer-order heat-mass transfer model for Maxwell fluid over an inclined plate in a porous medium. The MHD flow of non-Newtonian fluid over the plate due to the natural convection of the symmetric temperature field and general
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23

Yadav, Ravi Kant. "Soret-Dufour effect on Unsteady MHD flow of Dusty viscoelastic fluid over inclined porous plate embedded in porous medium." International Journal of Science and Social Science Research 1, no. 1 (2023): 19–29. https://doi.org/10.5281/zenodo.13328094.

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In the current work, a continuously moving inclined plate with the Soret-Dufoureffect is subjected to an unstable two-dimensional MHD (Magnetohydro Dynamics) flow of adusty viscoelastic (Walter’s liquid model-B) incompressible viscous and electrically conductingfluid. The coupled equations involving a nonlinear problem are investigated using the CrankNicolson finite difference method, and a numerical solution for the velocity, temperature, andconcentration distributions is achieved.The graphical findings are shown to interpret the impact of the problem’s many significant parameters
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24

Liu, I.-C., H. H. Wang, and J. C. Umavathi. "Poiseuille-Couette Flow and Heat Transfer in an Inclined Channel for Composite Porous Medium." Journal of Mechanics 28, no. 1 (2012): 171–78. http://dx.doi.org/10.1017/jmech.2012.18.

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ABSTRACTConvective flow and heat transfer in an inclined channel bounded by two rigid plates is studied, where the lower plate is fixed and upper plate is moving with a constant velocity. One of the regions filled with clear viscous fluid and the other region filled with the porous matrix saturated with a viscous fluid different from the fluid in the first region are considered. The coupled nonlinear equations are mainly solved numerically using finite difference method. It is found that the presence of porous matrix in one of the region reduces the velocity and temperature. Both the velocity
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25

Beithou, Nabil Ibrahim. "ANALYSES OF FREE CONVECTION FLOW OF AN INCLINED PLATE EMBEDDED IN A DOUBLE LAYER POROUS MEDIUM." Transactions of the Canadian Society for Mechanical Engineering 39, no. 2 (2015): 269–79. http://dx.doi.org/10.1139/tcsme-2015-0019.

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Porous media offer wide practical applications, such as the use of the porous medium in solar water desalination systems to enhance water evaporation or condensation. Water condensation represents half of the desalination process. This study presents a simulation for the condensation process with double porous layers. This problem is simulated as the natural convection from an inclined plate embedded in a double layer porous medium; the plate was subjected to a constant wall temperature with variable layers thickness, permeability ratio and different plate angles. The effects of these paramete
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26

Natarajan, Senthil Kumar, Seokkyu Cho, and Il-Hyoung Cho. "The Optimal Design of an Inclined Porous Plate Wave Absorber Using an Artificial Neural Network Model." Applied Sciences 15, no. 9 (2025): 4895. https://doi.org/10.3390/app15094895.

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This study seeks to optimize the shape of a wave absorber with an inclined porous plate using an artificial neural network (ANN) model to improve the operating efficiency and experimental accuracy of a square wave basin. As our numerical tool, we employed the dual boundary element method (DBEM) to avoid the rank deficiency problem occurring at the degenerate plate boundary with zero thickness. A quadratic velocity model incorporating a CFD-based drag coefficient was employed to account for energy dissipation across the porous plate. The developed DBEM tool was validated through comparisons wit
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27

KONOPKA, Stanisław, and Ewelina KOLANKOWSKA. "METHODOLOGICAL ASPECTS OF DETERMINING THE COEFFICIENT OF KINETIC FRICTION OF WHEAT KERNELS ON AN INCLINED PLANE." Tribologia 278, no. 2 (2018): 45–50. http://dx.doi.org/10.5604/01.3001.0012.6974.

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One of the most popular methods of determining the coefficient of kinetic friction between a pair of solid objects involves an inclined plane. However, manual measurements of the time taken by a particle to travel a certain distance (usually performed with a stopwatch) and the angle of an inclined plane (on a scale) are not always highly accurate or precise. The coefficient of kinetic friction has to be determined on the assumption that a particle moves in uniformly accelerated motion. The aim of this study was to analyse particles moving in uniformly accelerated motion on an inclined plane an
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28

Pop, I., and Tsung-Yen Na. "Free convection from an arbitrarily inclined plate in a porous medium." Heat and Mass Transfer 32, no. 1-2 (1996): 55–59. http://dx.doi.org/10.1007/s002310050091.

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29

Obulesu Mopuri, A.Sailakumari, Aruna Ganjikunta, et al. "Characteristics of MHD Jeffery Fluid Past an Inclined Vertical Porous Plate." CFD Letters 16, no. 6 (2024): 68–89. http://dx.doi.org/10.37934/cfdl.16.6.6889.

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This paper is concerned with the study of an unsteady, MHD natural convective boundary layer flow of a viscous, incompressible and electrically conducting, non-Newtonian Jeffery fluid over a semi-infinite vertically inclined permeable moving plate embedded in a porous medium in the presence of thermal radiation, heat absorption and thermal diffusion, heat and mass transfer. . The permeability of the porous medium and the suction velocity are considered to be an exponentially decreasing function of time. The fundamental governing equations for this investigation are solved numerically using the
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30

Islam, Md Rafiqul, and Sonia Nasrin. "Micropolar Fluid Flow Along with an Inclined Riga Plate Through a Porous Medium." International Journal of Heat and Technology 39, no. 4 (2021): 1123–33. http://dx.doi.org/10.18280/ijht.390410.

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This study presents the one-dimensional unsteady micropolar fluid flow set in a porous medium along with an inclined infinite Riga plate. This Riga plate is created an electric and magnetic field, where a transverse Lorentz force is generated that contributes a flow along with the plate. The explicit finite difference method is used to find the solution of the non-dimensional form of the governing equations and estimated results are analyzed in terms of Microrotation parameter, Suction parameter, thermal Grashof number, mass Grashof number, Permeability parameter, Hartmann number, Dufour numbe
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31

Uppuluri, V. Manoj Kumar, S. Sreenadh, G. Gopi Krishna, and A. N. S. Srinivas. "Couette Flow of a Casson Fluid in an Inclined Composite Duct." International Journal of Engineering and Advanced Technology 9, no. 1s5 (2019): 288–92. http://dx.doi.org/10.35940/ijeat.a1064.1291s519.

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Couette flow of a Casson fluid in an inclined composite duct comprising of porous and fluid layers of different thickness is investigated. A fully developed steady flow is assumed to be produced by applying a constant pressure gradient. The flow governing equations are described as per the standard literature. The boundary conditions at the porous and free fluid interface are formulated and the equations for fluid velocity within the porous layer and in the open channel are solved analytically. These flow quantities are studied for the effect of parameters such as porous layer thickness, volum
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32

Jamil, Muhammad, and Abdul Haleem. "MHD fractionalized Jeffrey fluid over an accelerated slipping porous plate." Nonlinear Engineering 9, no. 1 (2020): 273–89. http://dx.doi.org/10.1515/nleng-2020-0015.

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AbstractThe primary target of this paper is to obtain the analytic solutions for the incompressible unsteady flow of fractionalized MHD Jeffrey fluid over an accelerating porous plate with linear slip effect is assumed between fluid and the plate. The governing equations of Jeffrey fluid are developed by fractional calculus approach. The velocity distribution and its corresponding shear stress both are obtained in terms of generalized M-function by using Laplace transform technique and considering all initial and boundary conditions. We have also discussed that obtained results of fractionaliz
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33

Kolsi, Lioua, Fatih Selimefendigil, Mohamed Omri, et al. "CFD Study of MHD and Elastic Wall Effects on the Nanofluid Convection Inside a Ventilated Cavity Including Perforated Porous Object." Mathematics 11, no. 3 (2023): 695. http://dx.doi.org/10.3390/math11030695.

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Cost-effective, lightweight design alternatives for the thermal management of heat transfer equipment are required. In this study, porous plate and perforated-porous plates are used for nanoliquid convection control in a flexible-walled vented cavity system under uniform magnetic field effects. The finite element technique is employed with the arbitrary Lagrangian–Eulerian (ALE) method. The numerical study is performed for different values of Reynolds number (200≤Re≤1000), Hartmann number (0≤Ha≤50), Cauchy number (10−8≤Ca≤10−4) and Darcy number (10−6≤Da≤0.1). At Re = 600, the average Nusselt n
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34

Sheikh, Nadim, and Maruf Hasan. "Mixed Convective Flow of Micropolar Fluids past an Inclined Porous Flat Plate." Open Journal of Fluid Dynamics 07, no. 04 (2017): 642–56. http://dx.doi.org/10.4236/ojfd.2017.74042.

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35

Onyinkwa, Linah Mogirango, and Isaac Chepkwony. "Heat and Mass Transfer in MHD Flow about an Inclined Porous Plate." Journal of Engineering Research and Reports 25, no. 4 (2023): 106–15. http://dx.doi.org/10.9734/jerr/2023/v25i4906.

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In this study, we explore how mass and heat are transferred in magnetohydrodynamics (MHD) flow. MHD has several applications in Power Generation, Magnetohydrodynamic Pumps, Plasma and Fusion Research, Spacecraft Propulsion, Metal Casting and Materials Processing, Geophysics and Planetary Science. Our focus is on understanding the flow over an inclined plate positioned near a semi-infinite porous plate. To tackle this problem, we combine the laws of electromagnetism with the Navier-Stokes equations to develop a comprehensive MHD flow model. To analyse the behaviour of the flow, we transform the
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36

Reddy, N. Ananda, M. C. Raju, and S. Vijay Kumar Varma. "Effects of Unsteady Free Convective MHD Non-Newtonian Flow Through a Porous Medium Bounded by an Infinite Inclined Porous Plate." Mapana - Journal of Sciences 9, no. 2 (2010): 6–20. http://dx.doi.org/10.12723/mjs.17.2.

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The problem of unsteady free convective MHD incompressible electrically conducting non-Newtonian fluid through porous medium bounded by on infinite inclined porous plate in the presence of constant suction and absorbing sinks is presented. Uniform magnetic field is applied normal to the plate. The equations governing the fluid flow have been solved using multi-parameter perturbation technique, subject to the relevant boundary conditions. It is noted that the velocity of the fluid and skin friction ore increased as permeability parameter and angle of inclination increases, whereas reverse pheno
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37

Eldabe, Nabil TM, Galal M. Moatimid, and Hoda Sm Ali. "Magnetohydrodynamic flow of non-Newtonian visco-elastic fluid through a porous medium near an accelerated plate." Canadian Journal of Physics 81, no. 11 (2003): 1249–69. http://dx.doi.org/10.1139/p03-092.

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An exact solution is obtained for the unsteady flow of an electrically conducting visco-elastic incompressible fluid through a porous medium on an infinite flat plate. The fluid under consideration obeys the rheological equations of state due to the Walters stress–strain relation. The plate is accelerated in the presence of a uniform magnetic field. The analysis includes the case of a solid plate as well as a porous one. The solution of the equations of motion is obtained by the use of a Laplace transform. The effects of the elasticity, magnetic field, permeability of the porous medium, and th
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38

Veeresh, C., S. V. K. Varma, B. Rushi Kumar, and A. G. Vijaya Kumar. "Heat and Mass Transfer in MHD Mixed Convection Flow on a Moving Inclined Porous Plate." International Journal of Engineering Research in Africa 20 (October 2015): 144–60. http://dx.doi.org/10.4028/www.scientific.net/jera.20.144.

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:The effects of mixed convection with thermal radiation and chemical reaction on MHD flow of viscous, incompressible and electrically conducting fluid on a moving inclined heated porous plate is analyzed. The non-linear coupled partial differential equations are solved by perturbation technique. The influence of different pertinent parameters such as Grashof number (Gr), modified Grashof number (Gm), magnetic field parameter (M), heat source parameter (), chemical reaction parameter (γ), Schmidt number (Sc) and angle of inclination () on velocity, temperature and concentration distribution hav
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39

Gupta, Nitish, and D. Bhargavi. "An Analytical Study of the Impact of an Inclined Magnetic Field on Couette Flow with Jeffrey Fluid under Local Thermal Non-Equilibrium (LTNE) and Viscous Dissipation." Applied Mechanics and Materials 919 (February 5, 2024): 157–70. http://dx.doi.org/10.4028/p-cigj1s.

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In this work, we examine the effects of viscous dissipation and local thermal non-equilibrium (LTNE) on Couette flow in a duct filled with a porous media under the influence of an angled magnetic field. The bottom plate of the duct is in motion and subjected to a constant heat flux, while the top plate remains stationary and adiabatic. The Jeffrey fluid flow model is consistent with the unidirectional flow in the porous zone. The studies provide more precise measurements of the effects of the Jeffrey parameter (λ), inclined angle (ϕ), Hartmann number (MW), thermal conductivity ratio (ν), Brink
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40

Ramana Reddy, G. Venkata, and Ali J. Chamkha. "Lie group analysis of chemical reaction effects on MHD free convection dissipative fluid flow past an inclined porous surface." International Journal of Numerical Methods for Heat & Fluid Flow 25, no. 7 (2015): 1557–73. http://dx.doi.org/10.1108/hff-08-2014-0270.

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Purpose – The purpose of this paper is to study chemical reaction and heat and mass transfer effects on steady free convection flow in an inclined porous plate in the presence of MHD and viscous dissipation through the application of scaling group of transformation and numerical method. Design/methodology/approach – The fourth-order Runge-Kutta along with the shooting method is employed in the numerical solution of the governing equations. Findings – The magnetic field parameter, the permeability of porous medium and the viscous dissipation are demonstrated to exert a more significant effect o
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41

DAS, U. J. "SORET AND DUFOUR EFFECTS ON THREE DIMENSIONAL MIXED CONVECTIVE HYDROMAGENTIC FLOW OF A VISCO-ELASTIC FLUID PAST AN INFINITE INCLINED PLATE." Latin American Applied Research - An international journal 49, no. 1 (2019): 7–12. http://dx.doi.org/10.52292/j.laar.2019.278.

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This study focuses analytically on a steady three dimensional mixed convective hydromagnetic flow of an incompressible, electrically conducting, visco-elastic fluid past an infinite inclined porous plate with transverse sinusoidal suction velocity, incorporating Soret and Dufour effects. The expressions for the velocity, temperature field, concentration field, skin friction at the plate, Nusselt number and Sherwood number at the plate are obtained. It is seen that fluid velocity decreases under the effects of Soret number and visco-elastic parameter. Also, it is seen that skin friction increas
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42

Abdul Hussein, Sarmad A., and Mohammed A. Nima. "NUMERICAL AND EXPERIMENTAL INVESTIGATION OF SEMICIRCULAR SOLAR UPDRAFT TOWER SYSTEM EMPLOYING POROUS COPPER METAL FOAM." Journal of Engineering and Sustainable Development 27, no. 5 (2023): 596–614. http://dx.doi.org/10.31272/jeasd.27.5.4.

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The numerical and experimental study was carried out under Iraqi weather conditions to verify the improvement of the performance of the solar updraft tower system SUTS by introducing porous metal foam as a heat-absorbent plate. a semicircular basin of the solar collector was divided into two equal identical quarters. A porous foam material was fixed on one of the basins while the other basin was fixed on a traditional copper plate. The positions of the metal foam absorber plate are changed with two inclination angles (0֯ and 18֯) and the optimum position is achieved when it gives the highest t
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43

Paul, Ashish. "Transient Free Convective MHD Flow Past an Exponentially Accelerated Vertical Porous Plate with Variable Temperature through a Porous Medium." International Journal of Engineering Mathematics 2017 (January 17, 2017): 1–9. http://dx.doi.org/10.1155/2017/2981071.

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This paper is concerned with analytical solution of one-dimensional unsteady laminar boundary layer MHD flow of a viscous incompressible fluid past an exponentially accelerated infinite vertical plate in presence of transverse magnetic field. The vertical plate and the medium of flow are considered to be porous. The fluid is assumed to be optically thin and the magnetic Reynolds number is considered small enough to neglect the induced hydromagnetic effects. The governing boundary layer equations are first converted to dimensionless form and then solved by Laplace transform technique. Numerical
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44

Elniel, Fawzia Mansour, Zainal Abdul Aziz, Arifah Bahar, Faisal Rasheed, and Shaymaa Mustafa. "STEADY FLOW OF JOHNSON-SEGALMAN FLUID THROUGH POROUS MEDIUM OVER AN INCLINED PLATE." Journal of Porous Media 22, no. 5 (2019): 583–98. http://dx.doi.org/10.1615/jpormedia.2019029087.

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45

Gaikwad, S. N., and Snehal Chillal. "Mixed Convective Magnetohydrodynamic Flow of Brinkman Based Nanofluids Over an Inclined Porous Plate." Advanced Science, Engineering and Medicine 11, no. 9 (2019): 807–16. http://dx.doi.org/10.1166/asem.2019.2424.

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46

Makinde, O. D., and E. Osalusi. "Entropy generation in a liquid film falling along an inclined porous heated plate." Mechanics Research Communications 33, no. 5 (2006): 692–98. http://dx.doi.org/10.1016/j.mechrescom.2005.06.010.

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47

Uddin, Md Nasir, M. A. Alim, and M. M. K. Chowdhury. "Effects of Mass Transfer on MHD Mixed Convective Flow Along Inclined Porous Plate." Procedia Engineering 90 (2014): 491–96. http://dx.doi.org/10.1016/j.proeng.2014.11.762.

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48

Moradi, A., H. Ahmadikia, T. Hayat, and A. Alsaedi. "On mixed convection–radiation interaction about an inclined plate through a porous medium." International Journal of Thermal Sciences 64 (February 2013): 129–36. http://dx.doi.org/10.1016/j.ijthermalsci.2012.08.014.

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49

Vaszi, A. Z., D. B. Ingham, D. Lesnic, D. Munslow, and I. Pop. "Conjugate Free Convection from a Slightly Inclined Plate Embedded in a Porous Medium." ZAMM 81, no. 7 (2001): 465–79. http://dx.doi.org/10.1002/1521-4001(200107)81:7<465::aid-zamm465>3.0.co;2-u.

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50

Akhtar, Salma, Shyamanta Chakraborty, and Keshab Borah. "DUFOUR AND SORET EFFECTS ON FREE CONVECTIVE MHD FLOW OVER AN INCLINED POROUS PLATE IN POROUS MEDIUM." Advances and Applications in Fluid Mechanics 32, no. 1 (2025): 37–55. https://doi.org/10.17654/0973468625003.

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The present study investigates solution to the problem of magnetohydrodynamics free convective flow past an inclined porous plate in presence of the heat source, Soret effect, Dufour effect and chemical reaction. To analyze the flow model, we transform it into a system of partial differential equations. We then employ the bvp4c method in MATLAB to obtain numerical solutions for this system. Numerical results show that the chemical reaction, thermal radiation, angle of inclination, Soret and Dufour effects possess a major impact on the heat and mass transfer of the fluid. The results of this st
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