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This book presents a collection of works published in a recent Special Issue (SI) entitled “Computational Fluid Dynamics”. These works address the development and validation of existent numerical solvers for fluid flow problems and their related applications. They present complex nonlinear, non-Newtonian fluid flow problems that are (in some cases) coupled with heat transfer, phase change, nanofluidic, and magnetohydrodynamics (MHD) phenomena. The applications are wide and range from aerodynamic drag and pressure waves to geometrical blade modification on aerodynamics characteristics of high-pressure gas turbines, hydromagnetic flow arising in porous regions, optimal design of isothermal sloshing vessels to evaluation of (hybrid) nanofluid properties, their control using MHD, and their effect on different modes of heat transfer. Recent advances in numerical, theoretical, and experimental methodologies, as well as new physics, new methodological developments, and their limitations are presented within the current book. Among others, in the presented works, special attention is paid to validating and improving the accuracy of the presented methodologies. This book brings together a collection of inter/multidisciplinary works on many engineering applications in a coherent manner.
Research & information: general --- Mathematics & science --- homogeneous-heterogeneous reactions --- porous medium --- first slip --- second slip --- exact solution --- fluid structure-interaction --- vibration suppression --- entropy generation minimization --- sloshing --- damping factor --- porous slider --- MHD flow --- reynolds number --- velocity slip --- homotopy analysis method --- Casson nanoliquid --- Marangoni convection --- inclined MHD --- Joule heating --- heat source --- third-grade liquid --- heat generation/absorption --- stretched cylinder --- series solution --- slip effects --- mixed convection flow --- cross fluid --- Darcy–Forchheimer model --- successive local linearization method --- swimming gyrotactic microorganisms --- Darcy law --- nanofluid --- unsteady flow --- non-axisymmetric flow --- MHD --- hybrid nanofluid --- stagnation-point flow --- ferrofluid --- Lie group framework --- unsteady slip flow --- stretching surface --- thermal radiation --- lattice Boltzmann method --- smoothed profile method --- hybrid method --- natural convection simulation --- concentric hexagonal annulus --- CMC-water --- Casson fluid --- mixed convection --- solid sphere --- scaling group analysis --- Sutterby fluid --- magnetohydrodynamics (MHD) --- stability analysis --- entropy --- nanoliquid --- moving wall --- unsteady stagnation point --- convective boundary condition --- Hyperloop system --- transonic speed --- aerodynamic drag --- drag coefficient --- pressure wave --- shockwave --- nanofluids --- heat generation --- sphere --- plume --- finite difference method --- gas turbine --- damaged rotor blade --- leading-edge modification --- aerodynamic characteristics --- micropolar hybrid nanofluid --- dual solution --- stretching/shrinking sheet --- Sisko fluid flow --- gold particles --- radiation effect --- slip effect --- curved surface --- Reiner-Rivlin nanofluid --- circular plates --- induced magnetic effects --- activation energy --- bioconvection nanofluid --- steady flow --- Tiwari and Das model --- Prandtl-Eyring nanofluid --- entropy generation --- implicit finite difference method
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This book presents a collection of works published in a recent Special Issue (SI) entitled “Computational Fluid Dynamics”. These works address the development and validation of existent numerical solvers for fluid flow problems and their related applications. They present complex nonlinear, non-Newtonian fluid flow problems that are (in some cases) coupled with heat transfer, phase change, nanofluidic, and magnetohydrodynamics (MHD) phenomena. The applications are wide and range from aerodynamic drag and pressure waves to geometrical blade modification on aerodynamics characteristics of high-pressure gas turbines, hydromagnetic flow arising in porous regions, optimal design of isothermal sloshing vessels to evaluation of (hybrid) nanofluid properties, their control using MHD, and their effect on different modes of heat transfer. Recent advances in numerical, theoretical, and experimental methodologies, as well as new physics, new methodological developments, and their limitations are presented within the current book. Among others, in the presented works, special attention is paid to validating and improving the accuracy of the presented methodologies. This book brings together a collection of inter/multidisciplinary works on many engineering applications in a coherent manner.
Research & information: general --- Mathematics & science --- homogeneous-heterogeneous reactions --- porous medium --- first slip --- second slip --- exact solution --- fluid structure-interaction --- vibration suppression --- entropy generation minimization --- sloshing --- damping factor --- porous slider --- MHD flow --- reynolds number --- velocity slip --- homotopy analysis method --- Casson nanoliquid --- Marangoni convection --- inclined MHD --- Joule heating --- heat source --- third-grade liquid --- heat generation/absorption --- stretched cylinder --- series solution --- slip effects --- mixed convection flow --- cross fluid --- Darcy–Forchheimer model --- successive local linearization method --- swimming gyrotactic microorganisms --- Darcy law --- nanofluid --- unsteady flow --- non-axisymmetric flow --- MHD --- hybrid nanofluid --- stagnation-point flow --- ferrofluid --- Lie group framework --- unsteady slip flow --- stretching surface --- thermal radiation --- lattice Boltzmann method --- smoothed profile method --- hybrid method --- natural convection simulation --- concentric hexagonal annulus --- CMC-water --- Casson fluid --- mixed convection --- solid sphere --- scaling group analysis --- Sutterby fluid --- magnetohydrodynamics (MHD) --- stability analysis --- entropy --- nanoliquid --- moving wall --- unsteady stagnation point --- convective boundary condition --- Hyperloop system --- transonic speed --- aerodynamic drag --- drag coefficient --- pressure wave --- shockwave --- nanofluids --- heat generation --- sphere --- plume --- finite difference method --- gas turbine --- damaged rotor blade --- leading-edge modification --- aerodynamic characteristics --- micropolar hybrid nanofluid --- dual solution --- stretching/shrinking sheet --- Sisko fluid flow --- gold particles --- radiation effect --- slip effect --- curved surface --- Reiner-Rivlin nanofluid --- circular plates --- induced magnetic effects --- activation energy --- bioconvection nanofluid --- steady flow --- Tiwari and Das model --- Prandtl-Eyring nanofluid --- entropy generation --- implicit finite difference method
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This book presents a collection of works published in a recent Special Issue (SI) entitled “Computational Fluid Dynamics”. These works address the development and validation of existent numerical solvers for fluid flow problems and their related applications. They present complex nonlinear, non-Newtonian fluid flow problems that are (in some cases) coupled with heat transfer, phase change, nanofluidic, and magnetohydrodynamics (MHD) phenomena. The applications are wide and range from aerodynamic drag and pressure waves to geometrical blade modification on aerodynamics characteristics of high-pressure gas turbines, hydromagnetic flow arising in porous regions, optimal design of isothermal sloshing vessels to evaluation of (hybrid) nanofluid properties, their control using MHD, and their effect on different modes of heat transfer. Recent advances in numerical, theoretical, and experimental methodologies, as well as new physics, new methodological developments, and their limitations are presented within the current book. Among others, in the presented works, special attention is paid to validating and improving the accuracy of the presented methodologies. This book brings together a collection of inter/multidisciplinary works on many engineering applications in a coherent manner.
homogeneous-heterogeneous reactions --- porous medium --- first slip --- second slip --- exact solution --- fluid structure-interaction --- vibration suppression --- entropy generation minimization --- sloshing --- damping factor --- porous slider --- MHD flow --- reynolds number --- velocity slip --- homotopy analysis method --- Casson nanoliquid --- Marangoni convection --- inclined MHD --- Joule heating --- heat source --- third-grade liquid --- heat generation/absorption --- stretched cylinder --- series solution --- slip effects --- mixed convection flow --- cross fluid --- Darcy–Forchheimer model --- successive local linearization method --- swimming gyrotactic microorganisms --- Darcy law --- nanofluid --- unsteady flow --- non-axisymmetric flow --- MHD --- hybrid nanofluid --- stagnation-point flow --- ferrofluid --- Lie group framework --- unsteady slip flow --- stretching surface --- thermal radiation --- lattice Boltzmann method --- smoothed profile method --- hybrid method --- natural convection simulation --- concentric hexagonal annulus --- CMC-water --- Casson fluid --- mixed convection --- solid sphere --- scaling group analysis --- Sutterby fluid --- magnetohydrodynamics (MHD) --- stability analysis --- entropy --- nanoliquid --- moving wall --- unsteady stagnation point --- convective boundary condition --- Hyperloop system --- transonic speed --- aerodynamic drag --- drag coefficient --- pressure wave --- shockwave --- nanofluids --- heat generation --- sphere --- plume --- finite difference method --- gas turbine --- damaged rotor blade --- leading-edge modification --- aerodynamic characteristics --- micropolar hybrid nanofluid --- dual solution --- stretching/shrinking sheet --- Sisko fluid flow --- gold particles --- radiation effect --- slip effect --- curved surface --- Reiner-Rivlin nanofluid --- circular plates --- induced magnetic effects --- activation energy --- bioconvection nanofluid --- steady flow --- Tiwari and Das model --- Prandtl-Eyring nanofluid --- entropy generation --- implicit finite difference method
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The Special Issue Modeling and Simulation in Engineering, belonging to the section Engineering Mathematics of the Journal Mathematics, publishes original research papers dealing with advanced simulation and modeling techniques. The present book, “Modeling and Simulation in Engineering I, 2022”, contains 14 papers accepted after peer review by recognized specialists in the field. The papers address different topics occurring in engineering, such as ferrofluid transport in magnetic fields, non-fractal signal analysis, fractional derivatives, applications of swarm algorithms and evolutionary algorithms (genetic algorithms), inverse methods for inverse problems, numerical analysis of heat and mass transfer, numerical solutions for fractional differential equations, Kriging modelling, theory of the modelling methodology, and artificial neural networks for fault diagnosis in electric circuits. It is hoped that the papers selected for this issue will attract a significant audience in the scientific community and will further stimulate research involving modelling and simulation in mathematical physics and in engineering.
Research & information: general --- Mathematics & science --- category theory --- mathematical modelling --- abstraction --- formal approaches --- functors --- surrogate model --- Kriging --- high-dimensional problems --- principal component dimension reduction --- trochoidal milling --- variable feed --- spiral groove --- CAM --- Levy walks --- anomalous diffusion --- fractional material derivative --- combustion process --- local estimate --- Monte Carlo method --- modeling --- analog circuits --- fault diagnosis --- neural networks --- carbon nanotubes --- heat transfer --- nanofluid --- rotating --- stretching/shrinking --- adjoint --- gradient-descent --- junctions --- transport equation --- unsteady flow --- rotation --- hybrid nanofluid --- stretching sheet --- radiation --- inverse modeling --- calcium leaching --- grout curtain --- hydraulic conductivity --- optimization --- fuzzy model --- response surface methodology --- diesel engine performance --- biodiesel --- anomalous diffusion equation --- continuous time random walk --- roughness scaling extraction --- fractal dimension --- accelerated algorithm --- Weierstrass–Mandelbrot function --- milling vibration signal --- spot volatility --- change of frequency --- roughness of volatility --- hurst exponent --- Chinese A-share market --- ferrofluidslip effect --- Stefan blowing --- thermodiffusion --- n/a --- Weierstrass-Mandelbrot function
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This book is a collection of the research articles and review article, published in special issue "Structural, Magnetic, Dielectric, Electrical, Optical and Thermal Properties of Nanocrystalline Materials: Synthesis, Characterization and Application".
Technology: general issues --- α-Fe2O3 --- photocatalytic activity --- dielectric properties --- similarity solution --- triple solutions --- stability analysis --- shooting method --- three-stage Lobatto III-A formula --- hybrid nanofluid --- slender body revolution --- porous media --- radiation effect --- mixed convection --- nanocrystalline cellulose --- graphene quantum dots --- thin film --- optical --- sensing --- glucose --- surface plasmon resonance --- Au-ZnO/C2H6O2 --- heat transfer --- rotating systems --- analytical solution --- sparking process --- surface energy --- nanoparticle nucleation --- vapor deposition --- beryllium oxide --- lithium Niobate --- SAW devices --- ellipsometry --- error analysis --- spectroscopy --- high-accuracy measurement --- optical metrology --- dielectric constants --- time-dependent flow --- entropy generation --- non-linear radiation --- γ-alumina nanoparticle --- MHD --- transition metal phosphorus sulfide --- van der Waals layered material --- 2D material --- low dimensional magnetism --- magnetic chains --- crystal growth --- chemical vapor transport --- powder X-ray diffraction --- rietveld refinement --- metamaterials --- electronic materials --- electromagnetic --- Fano resonances --- SQUID --- Ag@Au nanoparticle --- core–shell structure --- sea-urchin-like structure --- SERS --- fentanyl
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The advancements in research related to heat transfer has gathered much attention in recent decades following the quest for efficient thermal systems, interdisciplinary studies involving heat transfer, and energy research. Heat transfer, a fundamental transport phenomenon, has been considered one of the critical aspects for the development and advancement of many modern applications, including cooling, thermal systems which contain symmetry analysis, energy conservation and storage, and symmetry-preserving discretization of heat transfer in a complex turbulent flow. The objective of this book is to present recent advances, as well as up-to-date progress in all areas of heat transfer in engineering and its influence on emerging technologies.
Technology: general issues --- History of engineering & technology --- heat generation --- internal short --- lithium-ion --- nail penetration --- temperature --- thermal abuse --- adaptive neuro-fuzzy interface system --- artificial neural network --- current --- power --- thermal efficiency --- thermoelectric generator system --- waste heat recovery --- efficiency --- power generation --- thermal stress --- thermoelectric module --- cooling and heating mode --- heat pump --- high-pressure chiller --- light-duty commercial electric vehicle --- system performance --- truncated twisted tape --- secondary flow --- laminar convective heat transfer --- performance evaluation criterion --- CFD --- heat exchanger --- cooling --- Lorentz force --- magnetohydrodynamics --- microchannel --- MHD pump --- thermoelectric system --- real-time polymerase chain reaction --- battery --- heating performance --- HVAC --- parallel --- serial --- economic --- energy saving --- hot water --- internal combustion engine --- waste heat --- heat transfer characteristics --- hybrid nanofluid --- performance evaluation criteria --- single particle nanofluid --- uniformly heated tube --- Bejan number --- microplate heat exchanger --- particle shape --- performance index --- thermodynamic analysis
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Fluid interfaces are promising candidates for confining different types of materials, e.g., polymers, surfactants, colloids, and even small molecules, to be used in designing new functional materials with reduced dimensionality. The development of such materials requires a deepening of the physicochemical bases underlying the formation of layers at fluid interfaces as well as on the characterization of their structures and properties. This is of particular importance because the constraints associated with the assembly of materials at the interface lead to the emergence of equilibrium and features of dynamics in the interfacial systems, which are far removed from those conventionally found in traditional materials. This Special Issue is devoted to studies on the fundamental and applied aspects of fluid interfaces, and attempts to provide a comprehensive perspective on the current status of the research field.
Technology: general issues --- polyelectrolyte --- surfactants --- kinetically trapped aggregates --- interfaces --- surface tension --- interfacial dilational rheology --- adsorption --- nonlinear stretching sheet --- viscoelastic fluid --- MHD --- viscous dissipation --- underwater vehicle --- sea-water pump --- vibration isolation --- flexible pipes --- cationic surfactants --- Gemini 12-2-12 surfactant --- dynamic surface tension --- maximum bubble pressure --- surface potential --- nanofluid --- stretching surface --- rotating fluid --- Homotopy Analysis Method (HAM) --- porous media --- magnetohydrodynamics --- hybrid nanofluid --- stretching cylinder --- flow characteristics --- nanoparticles --- convective heat transfer --- interfacial tensions --- dilational rheology --- biocompatible emulsions --- partition coefficient --- Tween 80 --- saponin --- citronellol glucoside --- MCT oil --- Miglyol 812N --- lipids --- pollutants --- Langmuir monolayers --- particles --- rheology --- neutron reflectometry --- ellipsometry --- DPPC --- lipid monolayers --- air/water interface --- entropy --- second grade nanofluid --- Cattaneo-Christov heat flux model --- nonlinear thermal radiation --- Joule heating --- fluid displacement --- inverse Saffman–Taylor instability --- partially miscible --- Korteweg force --- gyrotactic microorganisms --- micropolar magnetohydrodynamics (MHD) --- Maxwell nanofluid --- single wall carbon nanotubes (SWCNTs) and multi wall carbon nanotubes (MWCNTs) --- thermal radiation --- chemical reaction --- mixed convection --- permeability --- confinement --- dynamics --- materials --- applications
Choose an application
Fluid interfaces are promising candidates for confining different types of materials, e.g., polymers, surfactants, colloids, and even small molecules, to be used in designing new functional materials with reduced dimensionality. The development of such materials requires a deepening of the physicochemical bases underlying the formation of layers at fluid interfaces as well as on the characterization of their structures and properties. This is of particular importance because the constraints associated with the assembly of materials at the interface lead to the emergence of equilibrium and features of dynamics in the interfacial systems, which are far removed from those conventionally found in traditional materials. This Special Issue is devoted to studies on the fundamental and applied aspects of fluid interfaces, and attempts to provide a comprehensive perspective on the current status of the research field.
Technology: general issues --- polyelectrolyte --- surfactants --- kinetically trapped aggregates --- interfaces --- surface tension --- interfacial dilational rheology --- adsorption --- nonlinear stretching sheet --- viscoelastic fluid --- MHD --- viscous dissipation --- underwater vehicle --- sea-water pump --- vibration isolation --- flexible pipes --- cationic surfactants --- Gemini 12-2-12 surfactant --- dynamic surface tension --- maximum bubble pressure --- surface potential --- nanofluid --- stretching surface --- rotating fluid --- Homotopy Analysis Method (HAM) --- porous media --- magnetohydrodynamics --- hybrid nanofluid --- stretching cylinder --- flow characteristics --- nanoparticles --- convective heat transfer --- interfacial tensions --- dilational rheology --- biocompatible emulsions --- partition coefficient --- Tween 80 --- saponin --- citronellol glucoside --- MCT oil --- Miglyol 812N --- lipids --- pollutants --- Langmuir monolayers --- particles --- rheology --- neutron reflectometry --- ellipsometry --- DPPC --- lipid monolayers --- air/water interface --- entropy --- second grade nanofluid --- Cattaneo-Christov heat flux model --- nonlinear thermal radiation --- Joule heating --- fluid displacement --- inverse Saffman–Taylor instability --- partially miscible --- Korteweg force --- gyrotactic microorganisms --- micropolar magnetohydrodynamics (MHD) --- Maxwell nanofluid --- single wall carbon nanotubes (SWCNTs) and multi wall carbon nanotubes (MWCNTs) --- thermal radiation --- chemical reaction --- mixed convection --- permeability --- confinement --- dynamics --- materials --- applications
Choose an application
This book is a collection of the research articles and review article, published in special issue "Structural, Magnetic, Dielectric, Electrical, Optical and Thermal Properties of Nanocrystalline Materials: Synthesis, Characterization and Application".
Technology: general issues --- α-Fe2O3 --- photocatalytic activity --- dielectric properties --- similarity solution --- triple solutions --- stability analysis --- shooting method --- three-stage Lobatto III-A formula --- hybrid nanofluid --- slender body revolution --- porous media --- radiation effect --- mixed convection --- nanocrystalline cellulose --- graphene quantum dots --- thin film --- optical --- sensing --- glucose --- surface plasmon resonance --- Au-ZnO/C2H6O2 --- heat transfer --- rotating systems --- analytical solution --- sparking process --- surface energy --- nanoparticle nucleation --- vapor deposition --- beryllium oxide --- lithium Niobate --- SAW devices --- ellipsometry --- error analysis --- spectroscopy --- high-accuracy measurement --- optical metrology --- dielectric constants --- time-dependent flow --- entropy generation --- non-linear radiation --- γ-alumina nanoparticle --- MHD --- transition metal phosphorus sulfide --- van der Waals layered material --- 2D material --- low dimensional magnetism --- magnetic chains --- crystal growth --- chemical vapor transport --- powder X-ray diffraction --- rietveld refinement --- metamaterials --- electronic materials --- electromagnetic --- Fano resonances --- SQUID --- Ag@Au nanoparticle --- core–shell structure --- sea-urchin-like structure --- SERS --- fentanyl
Choose an application
The advancements in research related to heat transfer has gathered much attention in recent decades following the quest for efficient thermal systems, interdisciplinary studies involving heat transfer, and energy research. Heat transfer, a fundamental transport phenomenon, has been considered one of the critical aspects for the development and advancement of many modern applications, including cooling, thermal systems which contain symmetry analysis, energy conservation and storage, and symmetry-preserving discretization of heat transfer in a complex turbulent flow. The objective of this book is to present recent advances, as well as up-to-date progress in all areas of heat transfer in engineering and its influence on emerging technologies.
Technology: general issues --- History of engineering & technology --- heat generation --- internal short --- lithium-ion --- nail penetration --- temperature --- thermal abuse --- adaptive neuro-fuzzy interface system --- artificial neural network --- current --- power --- thermal efficiency --- thermoelectric generator system --- waste heat recovery --- efficiency --- power generation --- thermal stress --- thermoelectric module --- cooling and heating mode --- heat pump --- high-pressure chiller --- light-duty commercial electric vehicle --- system performance --- truncated twisted tape --- secondary flow --- laminar convective heat transfer --- performance evaluation criterion --- CFD --- heat exchanger --- cooling --- Lorentz force --- magnetohydrodynamics --- microchannel --- MHD pump --- thermoelectric system --- real-time polymerase chain reaction --- battery --- heating performance --- HVAC --- parallel --- serial --- economic --- energy saving --- hot water --- internal combustion engine --- waste heat --- heat transfer characteristics --- hybrid nanofluid --- performance evaluation criteria --- single particle nanofluid --- uniformly heated tube --- Bejan number --- microplate heat exchanger --- particle shape --- performance index --- thermodynamic analysis
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