X
Search Filters
Format Format
Format Format
X
Sort by Item Count (A-Z)
Filter by Count
Journal Article (10226) 10226
Conference Proceeding (614) 614
Book Chapter (445) 445
Dissertation (57) 57
Government Document (12) 12
Book / eBook (4) 4
Magazine Article (4) 4
Newspaper Article (3) 3
Publication (3) 3
Paper (1) 1
more...
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
science & technology (7651) 7651
technology (7055) 7055
nusselt-zahl (6709) 6709
physical sciences (6077) 6077
nusselt number (5958) 5958
engineering (5756) 5756
heat transfer (5532) 5532
thermodynamics (5454) 5454
fluid flow (4641) 4641
engineering, mechanical (4410) 4410
mechanics (4012) 4012
wärmeübertragung (3959) 3959
computational fluid dynamics (2870) 2870
reynolds-zahl (2626) 2626
reynolds number (1967) 1967
mathematical models (1785) 1785
fluid dynamics (1781) 1781
analysis (1685) 1685
nanofluid (1507) 1507
nanofluids (1301) 1301
convection (1232) 1232
physics (1218) 1218
nusselt-number (1182) 1182
viscosity (1125) 1125
natural convection (1062) 1062
turbulent flow (1001) 1001
mechanical engineering (975) 975
nanopartikel (967) 967
friction factor (929) 929
energy & fuels (914) 914
prandtl-zahl (892) 892
wärmeübergangsverstärkung (889) 889
natürliche konvektion (873) 873
turbulence (867) 867
laminar flow (866) 866
computer simulation (850) 850
rayleigh-zahl (839) 839
mathematical analysis (838) 838
wärmeübergangskoeffizient (824) 824
heat-transfer (823) 823
numerical analysis (810) 810
nanoparticles (803) 803
druckabfall (795) 795
heat flux (760) 760
experimentelle untersuchung (724) 724
pressure drop (700) 700
volumenfraktion (700) 700
randbedingung (690) 690
prandtl number (688) 688
friktionsfaktor (685) 685
laminare strömung (652) 652
forced convection (638) 638
heat exchangers (638) 638
numerische simulation (638) 638
wärmerate (617) 617
konvektiver wärmeübergang (616) 616
reibungskoeffizient (610) 610
rayleigh number (600) 600
mass transfer (592) 592
convective heat transfer (576) 576
thermische leistung (572) 572
wärmestromdichte (566) 566
temperaturverteilung (551) 551
heat transfer coefficients (550) 550
turbulente strömung (547) 547
free convection (538) 538
experimentelle daten (535) 535
wärmeaustauscher (531) 531
fluide strömung (528) 528
engineering, chemical (522) 522
boundary conditions (516) 516
heat transfer enhancement (515) 515
aerodynamics (506) 506
wandreibung (501) 501
magnetic fields (497) 497
walls (485) 485
reynolds-number (476) 476
skin friction (457) 457
cylinders (446) 446
friction (444) 444
magnetisches feld (444) 444
tubes (436) 436
mixed convection (435) 435
grenzschicht (430) 430
heating (430) 430
poröses medium (430) 430
wärmeübergang (430) 430
porous media (428) 428
temperature distribution (425) 425
thermal conductivity (412) 412
wärmeleistung (411) 411
cooling (410) 410
temperature (407) 407
fluids (405) 405
wandtemperatur (404) 404
parameters (401) 401
heat (399) 399
physics, fluids & plasmas (388) 388
experimentalstudie (382) 382
studies (378) 378
more...
Library Location Library Location
Language Language
Language Language
X
Sort by Item Count (A-Z)
Filter by Count
English (11229) 11229
Japanese (133) 133
Chinese (74) 74
Portuguese (23) 23
French (16) 16
Turkish (5) 5
German (4) 4
Russian (4) 4
Spanish (4) 4
Arabic (3) 3
Korean (3) 3
Dutch (1) 1
Indonesian (1) 1
Persian (1) 1
Slovenian (1) 1
more...
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


International journal of thermal sciences, ISSN 1290-0729, 05/2015, Volume 91, pp. 146 - 156
.... Moreover, a correlation is developed to predict nanofluid Nusselt number through the microchannel... 
Slip velocity | Temperature jump | Microflow | Different nanoparticles | LBM | Thermodynamics | Engineering | Physical Sciences | Technology | Engineering, Mechanical | Science & Technology
Journal Article
Chemical engineering journal (Lausanne, Switzerland : 1996), ISSN 1385-8947, 04/2019, Volume 361, pp. 1392 - 1399
....•A Nusselt number correlation for assemblies of spheres was proposed.•Gunn’s equation shows large deviations for low Reynolds number conditions... 
Packed bed | Nusselt number correlation | Thermal lattice Boltzmann method | Immersed moving boundary condition | Heat transfer | Engineering | Engineering, Chemical | Engineering, Environmental | Technology | Science & Technology
Journal Article
International journal of heat and mass transfer, ISSN 0017-9310, 01/2015, Volume 80, pp. 85 - 97
Journal Article
Heat and mass transfer, ISSN 0947-7411, 2/2017, Volume 53, Issue 2, pp. 705 - 709
.... The Prandtl numbers considered as 100–10,000 corresponding to three types of silicon oil. The experiments covered a range of Rayleigh numbers from 2.14·109 to 2.27·1013... 
Engineering | Thermodynamics | Industrial Chemistry/Chemical Engineering | Engineering Thermodynamics, Heat and Mass Transfer | Heat transfer
Journal Article
International journal of heat and mass transfer, ISSN 0017-9310, 07/2016, Volume 98, pp. 616 - 623
[Display omitted] •An effective Prandtl number model from experimental data is used in the present study... 
Gamma alumina | Stretching sheet | Nanofluid | Alumina | Effective Prandtl number | Thermodynamics | Engineering | Physical Sciences | Technology | Mechanics | Engineering, Mechanical | Science & Technology
Journal Article
International journal of thermal sciences, ISSN 1290-0729, 11/2016, Volume 109, pp. 201 - 205
... Péclet numbers, where the heat transport occurs mainly in a thin thermal boundary layer near the surface of the object, the relation: Nu∝Pe1/2 or Nu... 
Convective heat transfer | Thermal boundary layer | Nusselt number | Incompressible fluid flow | 3-dimensional | Péclet number | Thermodynamics | Engineering | Physical Sciences | Technology | Engineering, Mechanical | Science & Technology
Journal Article
International journal of thermal sciences, ISSN 1290-0729, 08/2018, Volume 130, pp. 100 - 115
... (Reynolds number: 1 ≤ Re ≤ 5000; Prandtl number: 1 ≤ Pr ≤ 100 and Grashof number: 0 ≤ Gr ≤ 105) by using finite volume method... 
Rectangular enclosure | Nusselt number | Mixed convection | Grashof number | Reynolds number | Elliptical block | Thermodynamics | Engineering | Physical Sciences | Technology | Engineering, Mechanical | Science & Technology | Analysis | Numerical analysis
Journal Article
Journal of turbomachinery, ISSN 0889-504X, 04/2007, Volume 129, Issue 2, pp. 269 - 280
Limited available data suggest a substantial impact of Mach number on the heat transfer from an array of jets impinging on a surface at fixed Reynolds number... 
Thermal properties | Jets | Research | Reynolds number | Analysis
Journal Article
International journal of heat and mass transfer, ISSN 0017-9310, 08/2019, Volume 139, pp. 121 - 129
•Nusselt number decreases monotonously with an increase in angle of inclination (θ).•Nusselt number decreases as aspect ratio increases... 
Natural convection | Aspect ratio and tilted enclosure | Nusselt number | Rayleigh number | Angle of inclination | Thermodynamics | Engineering | Physical Sciences | Technology | Mechanics | Engineering, Mechanical | Science & Technology | Viscosity | Inclination angle | Compressed gas | Fluid flow | Enclosures | Aspect ratio | Free convection
Journal Article