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science & technology (30) 30
technology (28) 28
nanofluid (23) 23
physical sciences (21) 21
thermodynamics (20) 20
mechanics (18) 18
nanofluids (17) 17
engineering (15) 15
nanopartikel (15) 15
wärmeübertragung (15) 15
water nanofluid (14) 14
volumenfraktion (13) 13
energy & fuels (12) 12
al2o3 water nanofluid (11) 11
al2o3–water nanofluid (11) 11
reynolds-zahl (11) 11
al2o3/water nanofluid (10) 10
engineering, mechanical (10) 10
nanoparticles (10) 10
fluid flow (9) 9
heat transfer (8) 8
physics (8) 8
water (8) 8
applied sciences (7) 7
exact sciences and technology (7) 7
fluid dynamics (7) 7
reynolds number (7) 7
variable thermophysical properties (7) 7
aluminum oxide (6) 6
arbeitsflüssigkeit (6) 6
chemistry (6) 6
energy (6) 6
experimentelle untersuchung (6) 6
nanostructure (6) 6
natural convection (6) 6
nusselt-zahl (6) 6
wärmeübergangsverstärkung (6) 6
al2o3/water (5) 5
colloidal state and disperse state (5) 5
condensed matter: structure, mechanical and thermal properties (5) 5
druckabfall (5) 5
energy. thermal use of fuels (5) 5
experimentalstudie (5) 5
finite-volumen-methode (5) 5
general and physical chemistry (5) 5
heat-transfer (5) 5
nanomaterials (5) 5
physical and chemical studies. granulometry. electrokinetic phenomena (5) 5
theoretical studies. data and constants. metering (5) 5
thermal properties of condensed matter (5) 5
thermal properties of small particles, nanocrystals, nanotubes (5) 5
aluminiumoxid (4) 4
engineering, chemical (4) 4
experimental-investigation (4) 4
friktionsfaktor (4) 4
konvektiver wärmeübergang (4) 4
laminare strömung (4) 4
nanocomposites (4) 4
thermische leitfähigkeit (4) 4
volume fraction (4) 4
volume-fraction (4) 4
wärmeübergangskoeffizient (4) 4
al2o3–water (3) 3
collector testing (3) 3
computational fluid dynamics (3) 3
concentration (3) 3
copper oxide (3) 3
direct absorption solar collector (3) 3
efficiency (3) 3
heat transfer enhancement (3) 3
mathematical models (3) 3
nusselt number (3) 3
nusselt-number (3) 3
obstacles (3) 3
pressure drop (3) 3
reynolds-number (3) 3
rezirkulation (3) 3
viscosity (3) 3
wall temperature gradient (3) 3
wärmeaustauscher (3) 3
wärmeleistung (3) 3
agglomerieren (2) 2
aluminium-oxide (2) 2
aluminum (2) 2
analysis (2) 2
computer simulation (2) 2
convective heat transfer (2) 2
conversion formula (2) 2
cooling (2) 2
cuo/water (2) 2
cuprite (2) 2
efficiency enhancement (2) 2
entropieerzeugung (2) 2
exergy efficiency optimization (2) 2
experimental-study (2) 2
experimentelle daten (2) 2
finite volume method (2) 2
flat-plate solar collector (2) 2
flow characteristics (2) 2
fluide strömung (2) 2
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1. Full Text Experimental investigation of cooling photovoltaic (PV) panels using (TiO2) nanofluid in water -polyethylene glycol mixture and (Al2O3) nanofluid in water- cetyltrimethylammonium bromide mixture
by Ebaid, Munzer.S.Y and Ghrair, Ayoup.M and Al-Busoul, Mamdoh
Energy conversion and management, ISSN 0196-8904, 01/2018, Volume 155, pp. 324 - 343
Nanofluid (TiO2–water) | Concentration | Efficiency | Power | Nanofluid (Al2O3–water) | Nanofluid (TiO | Nanofluid (Al | water | Mechanics | Thermodynamics | Physical Sciences | Technology | Energy & Fuels | Science & Technology | Panels | Temperature | Aluminum | Climatic conditions | Fluid flow | Radiation | Flow characteristics | pH effects | Nanoparticles | Cetyltrimethylammonium bromide | Fluids | Photovoltaic cells | Polyethylene glycol | Titanium dioxide | Photovoltaics | Solar cells | Polyethylene | Cooling | Fluid dynamics | Cooling rate | Reynolds number | Nanofluids | Cooling effects | Friction factor | Flow rates | Heat exchangers | Aluminum oxide | Liquid cooling | Friction | Flow velocity | Power efficiency
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2. Full Text Exergy efficiency investigation and optimization of an Al2O3–water nanofluid based Flat-plate solar collector
by Shojaeizadeh, Ehsan and Veysi, Farzad and Kamandi, Ahmad
Energy and buildings, ISSN 0378-7788, 08/2015, Volume 101, pp. 12 - 23
Exergy efficiency optimization | Exergy analysis | Flat-plate solar collector | Al2O3–water nanofluid | Engineering | Technology | Construction & Building Technology | Engineering, Civil | Energy & Fuels | Science & Technology
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3. Full Text Structural optimization of nanofluid flow around an equilateral triangular obstacle
by Rashidi, S and Bovand, M and Abolfazli Esfahani, J
Energy (Oxford), ISSN 0360-5442, 08/2015, Volume 88, pp. 385 - 398
Response surface methodology | Triangular obstacle | Al2O3–water nanofluid | Optimization | water nanofluid | Thermodynamics | Physical Sciences | Technology | Energy & Fuels | Science & Technology | Obstacles | Computational fluid dynamics | Mathematical analysis | Reynolds number | Nanofluids | Fluid flow | Nanostructure | Orientation
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4. Full Text Opposition of Magnetohydrodynamic and AL2O3–water nanofluid flow around a vertex facing triangular obstacle
by Rashidi, S and Bovand, M and Esfahani, J.A
Journal of molecular liquids, ISSN 0167-7322, 03/2016, Volume 215, pp. 276 - 284
Finite volume method | AL2O3–water nanofluid | Magnetic field | Solid volume fractions | Stuart number | water nanofluid
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5. Full Text Semi-3D transient simulation of a nanofluid-base photovoltaic thermal system integrated with a thermoelectric generator
by Kolahan, Arman and Maadi, Seyed Reza and Kazemian, Arash and Schenone, Corrado and Ma, Tao
Energy conversion and management, ISSN 0196-8904, 09/2020, Volume 220, p. 113073
Parametric analysis | Thermoelectric generators (TEGs) | Photovoltaic thermal system (PVT) | Energy and exergy analysis | Aluminum-oxide/water (Al2O3/water) nanofluid | Mechanics | Thermodynamics | Physical Sciences | Technology | Energy & Fuels | Science & Technology | Performance evaluation | Temperature | Computer simulation | Aluminum | Inlet temperature | Temperature gradients | Thermoelectric generators | Nanofluids | Thermoelectricity | Aluminum oxide | Algorithms | Photovoltaic cells | Simulation | Electric power | Working fluids | Energy efficiency | Mathematical models | Exergy | Photovoltaics
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6. Full Text An experimental investigation on the impingement of a planar jet of Al2O3–water nanofluid on a V-shaped plate
by Yousefi, T and Shojaeizadeh, E and Mirbagheri, H.R and Farahbaksh, B and Saghir, M.Z
Experimental thermal and fluid science, ISSN 0894-1777, 10/2013, Volume 50, pp. 114 - 126
Planar jet impingement | Slot nozzle | Al2O3–water nanofluid | V-shape plate | water nanofluid | Thermodynamics | Engineering | Physical Sciences | Physics, Fluids & Plasmas | Technology | Engineering, Mechanical | Physics | Science & Technology | Fundamental areas of phenomenology (including applications) | Fluid dynamics | Turbulent flows, convection, and heat transfer | Exact sciences and technology | Condensed matter: structure, mechanical and thermal properties | Thermal properties of condensed matter | Energy. Thermal use of fuels | Colloidal state and disperse state | Chemistry | Physical and chemical studies. Granulometry. Electrokinetic phenomena | Energy | Jets | Applied sciences | Theoretical studies. Data and constants. Metering | General and physical chemistry | Thermal properties of small particles, nanocrystals, nanotubes | Heat transfer | Nanocomposites | Volume fraction | Reynolds number | Nanofluids | Fluid flow | Nanomaterials | Nanostructure | Heat transfer coefficients
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7. Full Text Performance of water based CuO and Al2O3 nanofluids in a Cu–Be alloy heat sink with rectangular microchannels
by Peyghambarzadeh, S.M and Hashemabadi, S.H and Chabi, A.R and Salimi, M
Energy conversion and management, ISSN 0196-8904, 10/2014, Volume 86, pp. 28 - 38
Microchannel heat sink | Heat transfer coefficient | Pressure drop | CuO/water and Al2O3/water nanofluids | Mechanics | Thermodynamics | Physical Sciences | Technology | Energy & Fuels | Science & Technology | Energy | Applied sciences | Exact sciences and technology
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8. Full Text Extrapolation of Al2O3–water nanofluid viscosity for temperatures and volume concentrations beyond the range of validity of existing correlations
by Mena, Jesús Betancourt and Ubices de Moraes, Anderson Antonio and Benito, Yipsy Roque and Ribatski, Gherhardt and Parise, José Alberto Reis
Applied thermal engineering, ISSN 1359-4311, 03/2013, Volume 51, Issue 1-2, pp. 1092 - 1097
Viscosity | Nanofluid | Low concentration | Al2O3–water | Low temperature | water | Thermodynamics | Engineering | Physical Sciences | Technology | Mechanics | Energy & Fuels | Engineering, Mechanical | Science & Technology | Properties and use of thermal fluids | Applied sciences | Theoretical studies. Data and constants. Metering | Energy. Thermal use of fuels | Energy | Exact sciences and technology
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9. Full Text Numerical investigation of heat transfer enhancement from a protruded surface by cross-flow jet using Al2O3–water nanofluid
by Barik, Ashok K and Rout, Swetapadma and Mukherjee, Arnab
International journal of heat and mass transfer, ISSN 0017-9310, 10/2016, Volume 101, pp. 550 - 561
Heat transfer enhancement | SST k–ω turbulence model | Cross-flow jet | Al2O3–water nanofluid | water nanofluid | Thermodynamics | Engineering | Physical Sciences | Technology | Mechanics | Engineering, Mechanical | Science & Technology
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10. Full Text Preparation and characterization of PVDF-filled MWCNT hollow fiber mixed matrix membranes for gas absorption by Al2O3 nanofluid absorbent via gas–liquid membrane contactor
by Talavari, Adel and Ghanavati, Bijan and Azimi, Alireza and Sayyahi, Soheil
Chemical engineering research & design, ISSN 0263-8762, 04/2020, Volume 156, pp. 478 - 494
Al2O3 water-based nanofluid | Hollow fiber mixed matrix membrane | Carbon dioxide absorption | Morphology | Long-term stability | Engineering | Engineering, Chemical | Technology | Science & Technology | Membranes | Wetting | Gas permeation | Nanotubes | Surface chemistry | Carbon dioxide | Wettability | Pore size | Absorption | Membrane structures | Liquid membranes | Multi wall carbon nanotubes | Gas absorption | Scanning electron microscopy | Nanofluids | Nanomaterials | Surface roughness | Fluorides | Contact angle | Electron microscopy | Field emission microscopy | Aluminum oxide | Transmission electron microscopy | Penetration | Polyvinylidene fluorides | Image transmission | Porosity
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