X
Search Filters
Format Format
Format Format
X
Sort by Item Count (A-Z)
Filter by Count
Journal Article (8751) 8751
Dissertation (105) 105
Conference Proceeding (90) 90
Book Chapter (40) 40
Magazine Article (5) 5
Publication (3) 3
Book / eBook (1) 1
Government Document (1) 1
more...
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
mixed convection (5405) 5405
thermodynamics (2997) 2997
mechanics (2682) 2682
heat transfer (2106) 2106
engineering, mechanical (2039) 2039
natural-convection (1581) 1581
heat-transfer (1571) 1571
nanofluid (1485) 1485
fluid flow (1455) 1455
convection (1387) 1387
flow (1387) 1387
mathematical models (1349) 1349
analysis (1274) 1274
computational fluid dynamics (1250) 1250
fluid dynamics (983) 983
nanofluids (946) 946
physics (891) 891
wärmeübertragung (863) 863
boundary-layer-flow (782) 782
mass-transfer (765) 765
nanoparticles (764) 764
nusselt-zahl (738) 738
mathematical analysis (736) 736
simulation (727) 727
fluid (702) 702
entropy generation (659) 659
oceanography (655) 655
temperature (644) 644
viscosity (623) 623
mischkonvektion (596) 596
computer simulation (579) 579
mechanical engineering (577) 577
magnetic-field (575) 575
forced-convection (571) 571
turbulence (553) 553
heat (549) 549
surface (549) 549
radiation (539) 539
meteorology & atmospheric sciences (527) 527
nanopartikel (526) 526
porous media (525) 525
engineering, chemical (516) 516
reynolds-zahl (516) 516
magnetic fields (507) 507
engineering (481) 481
mathematics, interdisciplinary applications (478) 478
porous-medium (475) 475
mhd (473) 473
mathematics, applied (472) 472
buoyancy (467) 467
mass transfer (465) 465
porous medium (465) 465
physics, multidisciplinary (460) 460
enclosure (458) 458
natural convection (453) 453
boundary layer (452) 452
reynolds number (446) 446
stretching sheet (440) 440
numerical-simulation (428) 428
numerical analysis (422) 422
viscous dissipation (422) 422
square cavity (416) 416
channel (415) 415
transport (409) 409
thermal radiation (403) 403
mixed layer (391) 391
finite element method (389) 389
magnetohydrodynamics (378) 378
mixed-layer (377) 377
nusselt number (376) 376
plate (375) 375
volumenfraktion (373) 373
lid-driven cavity (371) 371
mixed convection flow (361) 361
thermal-conductivity (358) 358
turbulent flow (347) 347
chemistry, physical (339) 339
walls (333) 333
engineering, multidisciplinary (332) 332
parameters (332) 332
studies (331) 331
boundary conditions (329) 329
differential equations (327) 327
free convection (327) 327
fluid-flow (326) 326
thermal-radiation (324) 324
materials science, multidisciplinary (322) 322
mhd flow (319) 319
fluids (315) 315
forced convection (315) 315
oceans (307) 307
velocity (307) 307
research (306) 306
equations (305) 305
cavity (298) 298
water (295) 295
thermophoresis (294) 294
natürliche konvektion (293) 293
stagnation-point flow (293) 293
energy & fuels (292) 292
more...
Library Location Library Location
Language Language
Language Language
X
Sort by Item Count (A-Z)
Filter by Count
English (8823) 8823
Japanese (94) 94
Chinese (69) 69
French (44) 44
Turkish (8) 8
Lithuanian (6) 6
Spanish (6) 6
Portuguese (5) 5
German (3) 3
Malay (3) 3
Arabic (2) 2
Russian (2) 2
Korean (1) 1
more...
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


International Journal of Heat and Mass Transfer, ISSN 0017-9310, 11/2016, Volume 102, pp. 766 - 772
•Magnetohydrodynamic (MHD) mixed convection flow of micropolar fluid is studied.•Heat transfer characteristics are explored by employing convective boundary condition and viscous dissipation... 
MHD | Micropolar material | Viscous dissipation | Mixed convection | Convective condition | STAGNATION-POINT FLOW | CHEMICAL-REACTION | TEMPERATURE-JUMP | BOUNDARY-CONDITION | ENGINEERING, MECHANICAL | VARIABLE THERMAL-CONDUCTIVITY | UNSTEADY-FLOW | HOMOGENEOUS-HETEROGENEOUS REACTIONS | MECHANICS | THERMODYNAMICS | OLDROYD-B FLUID | CHRISTOV HEAT-FLUX | RADIATIVE HEAT | Skin | Fluid dynamics | Mechanical engineering | Analysis
Journal Article
International Journal of Heat and Mass Transfer, ISSN 0017-9310, 05/2016, Volume 96, pp. 513 - 524
Journal Article
International Communications in Heat and Mass Transfer, ISSN 0735-1933, 11/2016, Volume 78, pp. 145 - 154
A numerical study of nanofluid flow and heat transfer of laminar mixed convection flow over a three-dimensional, horizontal microscale forward-facing step (MFFS) is reported... 
Heat transfer enhancement | Microscale forward-facing step | Mixed convection | Nanoparticle | Base fluid | Nanofluids | HEAT-TRANSFER ENHANCEMENT | FLUID-FLOW | SUSPENSIONS | ENHANCED THERMAL-CONDUCTIVITY | WATER-BASED NANOFLUIDS | MODEL | ANGLE | ADJACENT | NANOPARTICLES | MECHANICS | THERMODYNAMICS | TIO2 | Ethylene glycol
Journal Article
Chemical Engineering Science, ISSN 0009-2509, 04/2015, Volume 126, pp. 67 - 79
The presence of horizontal flow in stratified systems where a vertical temperature gradient leads to heat transfer through natural convection can be observed in several technological and natural phenomena... 
Linear stability analysis | Computational fluid dynamics | Hydrodynamic stability | Mixed convection | ENGINEERING, CHEMICAL | DNS | CHANNELS | GAS-SOLID FLOWS | Computational fluid dynantics | NUMERICAL SIMULATIONS | BIFURCATION | ROLLS | INSTABILITIES | Fluid dynamics | Analysis | Numerical analysis
Journal Article
Journal of Magnetism and Magnetic Materials, ISSN 0304-8853, 12/2016, Volume 419, pp. 140 - 155
Journal Article
Applied Thermal Engineering, ISSN 1359-4311, 04/2016, Volume 98, pp. 850 - 861
....•Conjugate heat conduction, convection and mass transfer problems have been solved.•Flow and heat mass transfer of nanofluids' important parameters have been examined... 
EMHD | Heat source/sink | Mixed convection | Nanofluid | Stagnation | DESIGN | CHEMICAL-REACTION | SHELL | FLUID-FLOW | ENERGY & FUELS | LAYER-FLOW | RADIATION | ENGINEERING, MECHANICAL | CONJUGATE HEAT-TRANSFER | MECHANICS | THERMODYNAMICS | POINT FLOW | VISCOUS-FLOW | SYSTEMS | Analysis | Force and energy | Mathematical analysis | Slip | Energy conversion | Mathematical models | Direct power generation | Nanostructure | Boundaries | Heat transfer
Journal Article
Asia‐Pacific Journal of Chemical Engineering, ISSN 1932-2135, 03/2016, Volume 11, Issue 2, pp. 179 - 186
Two‐dimensional heat transfer flow of a nanofluid in the neighborhood of a stagnation point flow in the presence of mixed convection is investigated... 
mixed convection | particles aggregation | variable wall temperature | nanofluid | BROWNIAN-MOTION | PERISTALTIC FLOW | PARTICLES | VISCOSITY | MODEL | THERMAL-CONDUCTIVITY | SHEET | ENGINEERING, CHEMICAL | HEAT | FLUID | Analysis | Aluminum oxide
Journal Article
International Journal of Mechanical Sciences, ISSN 0020-7403, 11/2017, Volume 133, pp. 273 - 282
•Mathematical model for boundary-layer mixed convection flow of Sisko fluid is constructed... 
Sisko nanoliquid | Three-dimensional | Mixed convection | Convective surface conditions | HEAT-TRANSFER | LIQUID | MHD FLOW | ENGINEERING, MECHANICAL | NANOFLUID | BOUNDARY-LAYER-FLOW | TRANSPORT | MECHANICS | FLUID | SURFACE | CONDENSATION | MASS-TRANSFER
Journal Article
Journal of Molecular Liquids, ISSN 0167-7322, 01/2017, Volume 225, pp. 750 - 757
Journal Article
International Journal of Thermal Sciences, ISSN 1290-0729, 01/2016, Volume 99, pp. 1 - 8
.... Effects of nanoparticles concentration, heat flux, tube inclination and free convection on the development of the thermal field are studied under buoyancy assisted flow condition for Grashof number... 
Mixed convection heat transfer | Inclined microfin tube | Plain tube | Nanofluid | Uniform heat flux | Assisted flow | Copper products
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 10/2017, Volume 42, Issue 42, pp. 26408 - 26416
Journal Article
Physica A: Statistical Mechanics and its Applications, ISSN 0378-4371, 05/2014, Volume 402, pp. 150 - 168
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 06/2017, Volume 42, Issue 24, pp. 15925 - 15932
Main objective of this frame work is to establish the modeling and simulation of mix convection flow along a vertically heated sheet filled with water... 
MHD | OHAM | Mixed convection | Numerical solution | Porous medium | ELECTROCHEMISTRY | ENERGY & FUELS | CHEMISTRY, PHYSICAL | NANOFLUID | BOUNDARY-LAYER-FLOW | EYRING-POWELL FLUID | SURFACE | POROUS-MEDIUM | WATER | Electrical engineering | Fluid dynamics
Journal Article