X
Search Filters
Format Format
Format Format
X
Sort by Item Count (A-Z)
Filter by Count
Journal Article (2872) 2872
Patent (989) 989
Publication (160) 160
Conference Proceeding (68) 68
Book / eBook (55) 55
Dissertation (37) 37
Technical Report (25) 25
Government Document (22) 22
Book Chapter (15) 15
Newsletter (15) 15
Magazine Article (8) 8
Newspaper Article (5) 5
Book Review (2) 2
Paper (2) 2
Trade Publication Article (1) 1
more...
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
thermodynamics (1436) 1436
energy & fuels (1434) 1434
engineering, chemical (1245) 1245
combustion (1244) 1244
mechanical engineering (1241) 1241
heating (1009) 1009
blasting (989) 989
combustion engines (989) 989
hot-gas or combustion-product engine plants (989) 989
lighting (989) 989
weapons (989) 989
air intakes for jet-propulsion plants (933) 933
controlling fuel supply in air-breathing jet-propulsion plants (933) 933
gas-turbine plants (933) 933
chemistry (835) 835
engineering, mechanical (732) 732
engineering, multidisciplinary (697) 697
engine plants in general (681) 681
machines or engines in general (681) 681
steam engines (681) 681
performing operations (655) 655
transporting (655) 655
metallurgy (642) 642
non-positive displacement machines or engines, e.g. steamturbines (642) 642
diffusion flames (623) 623
turbulence (610) 610
machine tools (606) 606
metal-working not otherwise provided for (606) 606
welding (599) 599
cladding or plating by soldering or welding (598) 598
cutting by applying heat locally, e.g. flame cutting (598) 598
soldering or unsoldering (598) 598
working by laser beam (598) 598
chemical surface treatment (577) 577
coating by vacuum evaporation, by sputtering, by ion implantationor by chemical vapour deposition, in general (577) 577
coating material with metallic material (577) 577
coating metallic material (577) 577
diffusion treatment of metallic material (577) 577
inhibiting corrosion of metallic material or incrustation ingeneral (577) 577
general tagging of cross-sectional technologies spanning over several sections of the ipc (573) 573
general tagging of new technological developments (573) 573
technical subjects covered by former uspc cross-reference art collections [xracs] and digests (573) 573
coating by vacuum evaporation, by sputtering, by ionimplantation or by chemical vapour deposition, in general (557) 557
surface treatment of metallic material by diffusion into thesurface, by chemical conversion or substitution (557) 557
analysis (524) 524
mechanics (505) 505
combustion processes (456) 456
combustion apparatus (449) 449
jet (442) 442
indexing schemes relating to engines or pumps in varioussubclasses of classes f01-f04 (436) 436
diffusion (432) 432
generating combustion products of high pressure or highvelocity, e.g. gas-turbine combustion chambers (432) 432
indexing scheme for aspects relating tonon-positive-displacement machines or engines, gas-turbines orjet-propulsion plants (426) 426
mathematical models (414) 414
turbulent flow (398) 398
methane (397) 397
jet flames (392) 392
technical subjects covered by former uspc (366) 366
technical subjects covered by former us classification (365) 365
jets (353) 353
technologies or applications for mitigation or adaptation againstclimate change (347) 347
air (340) 340
diffusion flame (322) 322
computational fluid dynamics (321) 321
climate change mitigation technologies related totransportation (319) 319
flames (303) 303
fluid flow (295) 295
diffusionsflamme (288) 288
fluid dynamics (280) 280
temperature (269) 269
simulation (259) 259
soot (255) 255
brennstoff (253) 253
hydrogen (247) 247
large-eddy simulation (247) 247
jet diffusion flames (244) 244
extinction (240) 240
fuels (240) 240
computer simulation (235) 235
flow (228) 228
combined operations (227) 227
ferrous or non-ferrous alloys (227) 227
other working of metal (227) 227
treatment of alloys or non-ferrous metals (227) 227
universal machine tools (227) 227
ignition (225) 225
models (225) 225
physics, fluids & plasmas (224) 224
alloys (220) 220
model (210) 210
stabilization (208) 208
oxidation (200) 200
flows (194) 194
premixed flames (183) 183
velocity (183) 183
physics (182) 182
aerodynamics (163) 163
methan (161) 161
engineering (156) 156
jet diffusion flame (156) 156
more...
Library Location Library Location
Library Location Library Location
X
Sort by Item Count (A-Z)
Filter by Count
Engineering & Comp. Sci. - Stacks (17) 17
Aerospace - Stacks (13) 13
Gerstein Science - Stacks (8) 8
Collection Dvlpm't (Acquisitions) - Vendor file (2) 2
UTL at Downsview - May be requested (2) 2
Engineering & Comp. Sci. - May be requested in 6-10 wks (1) 1
Engineering & Comp. Sci. - Missing (1) 1
Gerstein Science - Theses (1) 1
Media Commons - Microtexts (1) 1
St. Michael's College (John M. Kelly) - 2nd Floor (1) 1
UofT Schools - Stacks (1) 1
more...
Language Language
Language Language
X
Sort by Item Count (A-Z)
Filter by Count
English (3820) 3820
French (247) 247
German (181) 181
Japanese (136) 136
Chinese (68) 68
Korean (23) 23
Russian (17) 17
Norwegian (8) 8
Portuguese (8) 8
Czech (7) 7
Spanish (7) 7
Italian (2) 2
Swedish (2) 2
Danish (1) 1
Dutch (1) 1
Polish (1) 1
Slovak (1) 1
Turkish (1) 1
Ukrainian (1) 1
more...
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


Fuel, ISSN 0016-2361, 09/2019, Volume 251, pp. 506 - 513
The behavior of a diffusion flame under acoustic excitation was experimentally studied with the aid of simultaneous flow visualizations of the flame combining... 
Luminosity | Particle image velocimetry | Acoustic excitation | Mie scattering | Diffusion flame | Schlieren/shadowgraph imaging | COMBUSTION | ENERGY & FUELS | BEHAVIOR | ENGINEERING, CHEMICAL | TEMPERATURE | VELOCIMETRY | JET | Temperature | Amplitudes | Turbulent flow | Fluid dynamics | Variations | Acoustics | High temperature | Velocity | Density | Flow visualization | Diffusion
Journal Article
Fuel, ISSN 0016-2361, 06/2019, Volume 245, pp. 247 - 252
Understanding the sooting tendencies of turbulent flames under windy conditions is important to mitigate air pollution from flare stacks as well as improve... 
Crossflow | Sooting tendency | Smoke point | Turbulent jet flame | Propane | SMOKE-POINT | MOMENTUM | SHAPES | ENERGY & FUELS | MODEL | RADIATION | ENGINEERING, CHEMICAL | METHODOLOGY | Air pollution | Turbulent flow | Growth rate | Wind tunnels | Diffusion flames | Soot | Reynolds number | Turbulent flames | Buoyancy | Fluid flow | Wind velocity | Aerodynamics | Momentum | Smoke | Velocity | Froude number | Supply & demand | Pollution detection | Diffusion | Cross flow
Journal Article
Combustion and Flame, ISSN 0010-2180, 02/2017, Volume 176, pp. 117 - 124
Journal Article
Fuel, ISSN 0016-2361, 11/2016, Volume 184, pp. 856 - 863
Phenomenological studies relating to the oscillation of buoyant diffusion flames are very important to design flare systems in the energy and petrochemical... 
Cross-wind | Momentum flux ratio | Richardson number | Oscillation frequency | Buoyant diffusion flame | ENGINEERING, CHEMICAL | ENERGY & FUELS | STABILITY | JET | PLUMES | FLOW | INSTABILITIES | Analysis | Aerospace engineering
Journal Article
Proceedings of the Combustion Institute, ISSN 1540-7489, 2017, Volume 36, Issue 3, pp. 4209 - 4216
In this study, a comparison of flame base structures of hydrogen/methane–air diffusion flames formed over a tiny-jet is made numerically for both isothermal... 
Hydrogen flame | Micro flame | Flame-burner interaction | Extinction | Jet diffusion flame | ENGINEERING, CHEMICAL | COMBUSTION | THERMODYNAMICS | MECHANISM | ENERGY & FUELS | AIR | ENGINEERING, MECHANICAL | Methane | Hydrogen | Activation energy | Mechanical engineering | Analysis | Electric properties
Journal Article
Energy, ISSN 0360-5442, 10/2018, Volume 160, pp. 1201 - 1207
Journal Article
Journal of Fluid Mechanics, ISSN 0022-1120, 07/2016, Volume 798, pp. 997 - 1014
Journal Article
Journal Article
Combustion and Flame, ISSN 0010-2180, 10/2013, Volume 160, Issue 10, pp. 2119 - 2130
Journal Article
by Li, XY and Dai, ZH and Xu, YT and Li, C and Zhou, ZJ and Wang, FC
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, ISSN 0360-3199, 12/2015, Volume 40, Issue 46, pp. 16104 - 16114
The structure and combustion mode of inverse diffusion flame of CH4 and O-2 in hot syngas coflow are numerically studied to gain a fundamental understanding of... 
ELECTROCHEMISTRY | Jet in hot coflow | H-2/N-2 JET FLAME | CO-FLOW | REFORMER | ENERGY & FUELS | CHEMISTRY, PHYSICAL | LIFTED FLAMES | SIMULATION | MILD combustion | Natural gas reformer | NATURAL-GAS | METHANE | NONCATALYTIC PARTIAL OXIDATION | VITIATED COFLOW | Inverse diffusion flame
Journal Article
Combustion Science and Technology, ISSN 0010-2202, 12/2018, Volume 190, Issue 12, pp. 2188 - 2202
Journal Article
Fuel, ISSN 0016-2361, 07/2013, Volume 109, pp. 234 - 240
► Flame heights of diffusive jet fires achieved in a reduced pressure atmosphere through unique experiments at high altitude. ► Flame lift off behavior is... 
Flame height | Lift-off | Reduced atmospheric pressure | Turbulent buoyant jet diffusion flame | FIRES | N-HEPTANE | EMISSIONS | ENERGY & FUELS | COMBUSTION CHARACTERISTICS | STABILITY | AIR | ALTITUDES | ENGINEERING, CHEMICAL | TEMPERATURE | METHANE/AIR | Correlation | Turbulence | Diffusion flames | Fluid dynamics | Atmospheric pressure | Barometric pressure | Buoyancy | Fuels
Journal Article
Fuel, ISSN 0016-2361, 05/2019, Volume 243, pp. 221 - 229
Compared to turbulent combustion in practical combustion devices, a co-flow laminar diffusion flame is the simplest configuration from which the interactions... 
Co-flow | Diffusion flame | Pulsation | Laminar | High pressure | TRANSITION | ENGINEERING, CHEMICAL | BUOYANCY | COFLOW | MECHANISM | ENERGY & FUELS | FREQUENCY | Combustion | Methane | Oxygen | Turbulent flow | Fluid dynamics | Jet flow | Strouhal number | Fluid flow | Turbulent combustion | Pressure | Froude number | Flow | Laminar flow | Diffusion
Journal Article