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1. Full Text From Rayleigh-Bénard convection to porous-media convection: How porosity affects heat transfer and flow structure
by Liu, Shuang and Jiang, Linfeng and Chong, Kai Leong and Zhu, Xiaojue and Wan, Zhen Hua and Verzicco, Roberto and Stevens, Richard J.A.M and Lohse, Detlef and Sun, Chao
Journal of fluid mechanics, ISSN 0022-1120, 07/2020, Volume 895
Condensed Matter Physics | Turbulent convection | Convection in porous media | Mechanical Engineering | Mechanics of Materials | Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Flow structures | Viscosity | Computer simulation | Computational fluid dynamics | Fluid flow | Thermal boundary layer | Rayleigh number | Aspect ratio | Convection | Heat flux | Flow | Thickness | Porous media | Studies | Prandtl number | Fluids | Energy dissipation | Boundary layer thickness | Barriers | Scaling | Porosity | Boundary layers | Heat transfer
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2. Full Text Heat transfer by rapidly rotating Rayleigh–Bénard convection
by King, E. M and Stellmach, S and Aurnou, J. M
Journal of fluid mechanics, ISSN 0022-1120, 01/2012, Volume 691, pp. 568 - 582
Papers | rotating flows | Bénard convection | geostrophic turbulence | Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Earth, ocean, space | External geophysics | Geophysics. Techniques, methods, instrumentation and models | Exact sciences and technology | Fluid mechanics | Turbulent flow | Numerical analysis | Heat transfer | Boundary layer | Turbulence | Law | Computational fluid dynamics | Fluid flow | Rotating | Convection
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3. Full Text Correlation of internal flow structure with heat transfer efficiency in turbulent Rayleigh–Bénard convection
by Xu, Ao and Chen, Xin and Wang, Feng and Xi, Heng-Dong
Physics of fluids (1994), ISSN 1070-6631, 10/2020, Volume 32, Issue 10
Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Prandtl number | Turbulent flow | Internal flow | Computational fluid dynamics | Energy dissipation | Correlation analysis | Fluid flow | Convection cells | Proper Orthogonal Decomposition | Kinetic energy | Heat transfer | Thermal energy
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4. Full Text Mixed convection heat transfer in a 5×5 rod bundles
by Liu, Da and Gu, Hanyang
International journal of heat and mass transfer, ISSN 0017-9310, 10/2017, Volume 113, pp. 914 - 921
Rod bundles | Mixed convection | Buoyancy effect | Heat transfer | Turbulence | Turbulent flow | Nusselt number | Fluid dynamics | Reynolds number | Buoyancy | Fluid flow | Rods | Free convection | Bundles | Bundling | Flow velocity | Pressurized water
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5. Full Text Aspect ratio dependence of heat transport by turbulent Rayleigh–Bénard convection in rectangular cells
by Zhou, Quan and Liu, Bo-Fang and Li, Chun-Mei and Zhong, Bao-Chang
Journal of fluid mechanics, ISSN 0022-1120, 11/2012, Volume 710, pp. 260 - 276
Papers | turbulent flows | Benard convection | turbulent convection | Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Fundamental areas of phenomenology (including applications) | Fluid dynamics | Hydrodynamic stability | Exact sciences and technology | Convective and constrained heat transfer | Buoyancy-driven instability | Heat transfer | Cells | Turbulent flow | Turbulence | Mathematical analysis | Rayleigh-Benard convection | Fluid flow | Aspect ratio | Transport
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6. Full Text Evaluation of the eddy viscosity turbulence models for the simulation of convection–radiation coupled heat transfer in indoor environment
by Li, Xiangdong and Tu, Jiyuan
Energy and buildings, ISSN 0378-7788, 02/2019, Volume 184, pp. 8 - 18
Eddy viscosity turbulence models | Thermal buoyancy flows | Contaminant dispersion | Thermal radiation | Indoor environment | Engineering | Technology | Construction & Building Technology | Engineering, Civil | Energy & Fuels | Science & Technology | Viscosity | Convective heat transfer | Evaluation | Turbulence | Turbulent flow | Computer simulation | Computational fluid dynamics | Indoor environments | Radiation | Aerodynamics | Eddy viscosity | Convection | Model accuracy | Induction heating | Contaminants | Air temperature | Turbulence models | Wall flow | Environment models | Models | Heat transfer coefficients | Heat transfer | Radiative heat transfer
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7. Full Text Ferrohydrodynamic and magnetohydrodynamic effects on ferrofluid flow and convective heat transfer
by Sheikholeslami, Mohsen and Ganji, Davood Domiri
Energy (Oxford), ISSN 0360-5442, 10/2014, Volume 75, pp. 400 - 410
Ferrofluid | MHD (Magnetohydrodynamic) | CVFEM (Control Volume based Finite Element Method) | Free convection | Joule heating | FHD (Ferrohydrodynamic) | Magnetic properties and materials | Fundamental areas of phenomenology (including applications) | Fluid dynamics | Turbulent flows, convection, and heat transfer | Exact sciences and technology | Convection and heat transfer | Magnetic liquids | Magnetohydrodynamics and electrohydrodynamics | Condensed matter: electronic structure, electrical, magnetic, and optical properties | Physics | Studies of specific magnetic materials | Finite element method | Magnetic fields | Mechanical engineering | Magnetohydrodynamics | Volume fraction | Mathematical analysis | Fluid flow | Nanostructure | Rayleigh number | Hartmann number | Heat transfer
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8. Full Text Flow organization and heat transfer in turbulent wall sheared thermal convection
by Blass, Alexander and Zhu, Xiaojue and Verzicco, Roberto and Lohse, Detlef and Stevens, Richard J.A.M
Journal of fluid mechanics, ISSN 0022-1120, 08/2020, Volume 897, pp. A22 - A22
Condensed Matter Physics | Rayleigh-Bénard convection | turbulent convection | Mechanics of Materials | UT-Hybrid-D | Couette flow | Mechanical Engineering | heat transfer | Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Viscosity | Rolls | Shear | Cellular convection | Turbulent flow | Buoyancy | Fluid flow | Velocity distribution | Experiments | Convection | Prandtl number | Dynamics | Boundary layer thickness | Kinematics | Profiles | Boundary layer transition | Computer simulation | Computational fluid dynamics | Velocity profiles | Reynolds number | Thermal boundary layer | Meandering | Free convection | Velocity | Flow | Thickness | Friction | Simulation | Scaling | Boundary layers | Heat transfer | Physics - Fluid Dynamics
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9. Full Text Bounds on heat transfer for Bénard–Marangoni convection at infinite Prandtl number
by Fantuzzi, Giovanni and Pershin, Anton and Wynn, Andrew
Journal of fluid mechanics, ISSN 0022-1120, 02/2018, Volume 837, pp. 562 - 596
JFM Papers | variational methods | turbulent convection | Marangoni convection | Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Temperature distribution | Parameters | Methodology | Computational fluid dynamics | Fluid flow | Mathematical functions | Convection | Optimization | Exploitation | Temperature fields | Prandtl number | Applied mathematics | Mathematical analysis | Upper bounds | Profiles | Scaling | Convexity | Heat transfer | Boundary layer | Inequality
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10. Full Text Solving natural convection heat transfer in turbulent flow by extending the meshless local Petrov–Galerkin method
by Sheikhi, Nasrin and Najafi, Mohammad and Enjilela, Vali
Engineering analysis with boundary elements, ISSN 0955-7997, 08/2018, Volume 93, pp. 29 - 43
MLPG | Natural convection | Turbulent flow | Spalart–Allmaras model | Meshless method | Mathematics, Interdisciplinary Applications | Engineering | Physical Sciences | Technology | Engineering, Multidisciplinary | Mathematics | Science & Technology | Turbulence | Mechanical engineering | Analysis | Methods | Aerospace engineering
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