UofT Libraries is getting a new library services platform in January 2021.
Learn more about the change.
Search Articles
Catalogue
Articles
RSS feedX
Search Filters
Format
Subjects
Library Location
Language
Publication DateJournal of thermal analysis and calorimetry, ISSN 1588-2926, 06/2018, Volume 135, Issue 6, pp. 3029 - 3042
A two-dimensional (2D) numerical simulation is performed to simulate the laminar forced convection of a nanofluid in a ribbed channel with apart heating...
Polymer Sciences | Chemistry | Analytical Chemistry | Measurement Science and Instrumentation | Physical Chemistry | Nanofluid | Ribbed channel | LBM | Inorganic Chemistry | Forced convection heat transfer | Apart heating (cooling) sections | Thermodynamics | Physical Sciences | Chemistry, Analytical | Chemistry, Physical | Science & Technology | Temperature distribution | Forced convection | Cooling | Nusselt number | Computational fluid dynamics | Computer simulation | Reynolds number | Fluid flow | Nanofluids | Convection heating | Velocity distribution | Nanoparticles | Mathematical analysis | Industrial equipment | Dependence | Convection cooling | Iron oxides | Multi wall carbon nanotubes | Heat transfer coefficients | Heat transfer
Polymer Sciences | Chemistry | Analytical Chemistry | Measurement Science and Instrumentation | Physical Chemistry | Nanofluid | Ribbed channel | LBM | Inorganic Chemistry | Forced convection heat transfer | Apart heating (cooling) sections | Thermodynamics | Physical Sciences | Chemistry, Analytical | Chemistry, Physical | Science & Technology | Temperature distribution | Forced convection | Cooling | Nusselt number | Computational fluid dynamics | Computer simulation | Reynolds number | Fluid flow | Nanofluids | Convection heating | Velocity distribution | Nanoparticles | Mathematical analysis | Industrial equipment | Dependence | Convection cooling | Iron oxides | Multi wall carbon nanotubes | Heat transfer coefficients | Heat transfer
Journal Article
Details 
Digital rights
Loading RightsJournal of thermal analysis and calorimetry, ISSN 1388-6150, 2/2019, Volume 135, Issue 3, pp. 1733 - 1741
Nano-fluidic flow and heat transfer around a horizontal cylinder at Reynolds numbers up to 250 are investigated by using weakly compressible smoothed particle...
Polymer Sciences | Nanoparticles | Chemistry | Analytical Chemistry | Forced convection | Measurement Science and Instrumentation | Physical Chemistry | Smoothed particle hydrodynamics (SPH) | Inorganic Chemistry | Nano-fluid | Weakly compressible | Thermodynamics | Physical Sciences | Chemistry, Analytical | Chemistry, Physical | Science & Technology
Polymer Sciences | Nanoparticles | Chemistry | Analytical Chemistry | Forced convection | Measurement Science and Instrumentation | Physical Chemistry | Smoothed particle hydrodynamics (SPH) | Inorganic Chemistry | Nano-fluid | Weakly compressible | Thermodynamics | Physical Sciences | Chemistry, Analytical | Chemistry, Physical | Science & Technology
Journal Article
Details
Digital rights
Loading RightsComputer methods in applied mechanics and engineering, ISSN 0045-7825, 09/2015, Volume 294, pp. 299 - 312
In this paper force convection heat transfer in a lid driven semi annulus enclosure is studied in presence of non-uniform magnetic field. The enclosure is...
Ferrofluid | Forced convection | CVFEM | Magnetohydrodynamic | Nanofluid | Joule heating
Ferrofluid | Forced convection | CVFEM | Magnetohydrodynamic | Nanofluid | Joule heating
Journal Article
Details
Digital rights
Loading RightsJournal of thermal analysis and calorimetry, ISSN 1588-2926, 10/2018, Volume 136, Issue 4, pp. 1723 - 1735
Forced convection heat transfer of multi-wall carbon nanotubes–iron oxide nanoparticles/water hybrid nanofluid (MWCNT–Fe3O4/water hybrid nanofluid) inside a...
Polymer Sciences | Chemistry | Analytical Chemistry | Measurement Science and Instrumentation | Physical Chemistry | Nanofluid | Ï„-shaped channel | LBM | Inorganic Chemistry | Forced convection heat transfer | Magnetic field | Viscosity | Forced convection | Nusselt number | Computational fluid dynamics | Numerical methods | Fluid flow | Nanofluids | Hartmann number | Nanoparticles | Heaters | Conduction heating | Iron oxides | Multi wall carbon nanotubes | Heat transfer
Polymer Sciences | Chemistry | Analytical Chemistry | Measurement Science and Instrumentation | Physical Chemistry | Nanofluid | Ï„-shaped channel | LBM | Inorganic Chemistry | Forced convection heat transfer | Magnetic field | Viscosity | Forced convection | Nusselt number | Computational fluid dynamics | Numerical methods | Fluid flow | Nanofluids | Hartmann number | Nanoparticles | Heaters | Conduction heating | Iron oxides | Multi wall carbon nanotubes | Heat transfer
Journal Article
Details
Digital rights
Loading RightsJournal of applied physics, ISSN 1089-7550, 04/2013, Volume 113, Issue 15, p. 151301
This is a review of the theoretical and applied progress made based on the Constructal law of design and evolution in nature, with emphasis on the last decade....
Physical Sciences | Physics | Science & Technology | Physics, Applied | Analysis | Geophysics | Engineering Sciences | Civil Engineering
Physical Sciences | Physics | Science & Technology | Physics, Applied | Analysis | Geophysics | Engineering Sciences | Civil Engineering
Journal Article
Details
Digital rights
Loading RightsJournal of thermal analysis and calorimetry, ISSN 1588-2926, 12/2018, Volume 137, Issue 2, pp. 637 - 658
This paper investigates the energetic and entropic characteristics of a microchannel with thick walls. A first-order, catalytic chemical reaction is imposed on...
Polymer Sciences | Local thermal non-equilibrium | Chemistry | Analytical Chemistry | Measurement Science and Instrumentation | Physical Chemistry | Entropy generation | Performance evaluation criterion | Microreactor | Inorganic Chemistry | Catalytic reactions | Porous material | Thermodynamics | Physical Sciences | Chemistry, Analytical | Chemistry, Physical | Science & Technology | Forced convection | Nanofluids | Chemical reactions | Entropy | Mass transfer | Optimization | Microchannels | Thick walls | Thickness | Organic chemistry | Exothermic reactions | Microreactors | Catalysis | Heat transfer
Polymer Sciences | Local thermal non-equilibrium | Chemistry | Analytical Chemistry | Measurement Science and Instrumentation | Physical Chemistry | Entropy generation | Performance evaluation criterion | Microreactor | Inorganic Chemistry | Catalytic reactions | Porous material | Thermodynamics | Physical Sciences | Chemistry, Analytical | Chemistry, Physical | Science & Technology | Forced convection | Nanofluids | Chemical reactions | Entropy | Mass transfer | Optimization | Microchannels | Thick walls | Thickness | Organic chemistry | Exothermic reactions | Microreactors | Catalysis | Heat transfer
Journal Article
Details
Digital rights
Loading RightsInternational journal of heat and mass transfer, ISSN 0017-9310, 11/2017, Volume 114, pp. 688 - 702
•Entropy generation and heat transfer in a pebble bed channel is experimentally studied.•Turbulent air flow is used to cool the heated spheres in the...
Pebble bed channel | Internal heat generation | Exergy analysis | Forced convection heat transfer | Experimental approach | Thermodynamics | Engineering | Physical Sciences | Technology | Mechanics | Engineering, Mechanical | Science & Technology | Turbulence | Steel, Stainless | Laws, regulations and rules | Analysis | Aerospace engineering | Heat generation | Forced convection | Turbulent flow | Cooling | Nusselt number | Fluid dynamics | Electromagnetic induction | Fluid flow | Aerodynamics | Entropy | Experiments | Induction heating | Packed beds | Heating | Stainless steel | Energy conversion | Flow velocity | Exergy | Heat transfer
Pebble bed channel | Internal heat generation | Exergy analysis | Forced convection heat transfer | Experimental approach | Thermodynamics | Engineering | Physical Sciences | Technology | Mechanics | Engineering, Mechanical | Science & Technology | Turbulence | Steel, Stainless | Laws, regulations and rules | Analysis | Aerospace engineering | Heat generation | Forced convection | Turbulent flow | Cooling | Nusselt number | Fluid dynamics | Electromagnetic induction | Fluid flow | Aerodynamics | Entropy | Experiments | Induction heating | Packed beds | Heating | Stainless steel | Energy conversion | Flow velocity | Exergy | Heat transfer
Journal Article
Details
Digital rights
Loading Rights2017, ISBN 9783319495613, 1005
In its expanded 4th edition, this book offers a user-friendly introduction to convection in porous media, with some 2,000 new references and coverage of...
Thermodynamics | Mass transfer porous medium | Forced convection porous medium | External natural convection porous medium | Nanofluidics convection | Heat transfer porous medium | Radiative transfer in cellular porous media | Convection in porous media book | Heat | Porous materials
Thermodynamics | Mass transfer porous medium | Forced convection porous medium | External natural convection porous medium | Nanofluidics convection | Heat transfer porous medium | Radiative transfer in cellular porous media | Convection in porous media book | Heat | Porous materials
eBook
Details
Digital rights
Loading RightsJournal of thermal analysis and calorimetry, ISSN 1588-2926, 06/2017, Volume 131, Issue 2, pp. 1577 - 1586
In this paper, with the aim of enhancing the thermal conductivity of the fluid, a nanofluid is prepared based on SiO2. A series of experimental tests were...
Polymer Sciences | Circular | Chemistry | Analytical Chemistry | SiO 2 /water | Measurement Science and Instrumentation | Physical Chemistry | Nanofluid | Inorganic Chemistry | Square | Convection | SiO | water | Thermodynamics | Physical Sciences | Chemistry, Analytical | Chemistry, Physical | Science & Technology | Convective heat transfer | Forced convection | Fluid dynamics | Reynolds number | Fluid flow | Nanofluids | Silicon dioxide | Heat flux | Mass flow rate | Circularity | Thermal conductivity | Heat transfer coefficients | Cross sections | Heat transfer
Polymer Sciences | Circular | Chemistry | Analytical Chemistry | SiO 2 /water | Measurement Science and Instrumentation | Physical Chemistry | Nanofluid | Inorganic Chemistry | Square | Convection | SiO | water | Thermodynamics | Physical Sciences | Chemistry, Analytical | Chemistry, Physical | Science & Technology | Convective heat transfer | Forced convection | Fluid dynamics | Reynolds number | Fluid flow | Nanofluids | Silicon dioxide | Heat flux | Mass flow rate | Circularity | Thermal conductivity | Heat transfer coefficients | Cross sections | Heat transfer
Journal Article
Details
Digital rights
Loading Rights01/2017, 5th ed. 2017, ISBN 9783319495613
Engineering | Thermodynamics | Soft and Granular Matter, Complex Fluids and Microfluidics | Engineering Thermodynamics, Heat and Mass Transfer | Engineering Fluid Dynamics | Catalysis | Quantitative Geology | Mass transfer porous medium | Forced convection porous medium | External natural convection porous medium | Nanofluidics convection | Heat transfer porous medium | Radiative transfer in cellular porous media | Convection in porous media book
eBook
Details
Digital rights
Loading RightsResults in physics, ISSN 2211-3797, 03/2020, Volume 16, p. 102920
A prototype of luminescent concentrator solar dryer (LCSD).
[Display omitted]
•Novel fluorescent red PC films were optimized for better properties for...
KREMER fluorescent dyes | Luminescent solar concentrator dryers Forced convection
KREMER fluorescent dyes | Luminescent solar concentrator dryers Forced convection
Journal Article
Details
Digital rights
Loading Rights