Radiative Fraction and Flame Length of Propane Jet Diffusion Flames in a Crossflow (English)
- New search for: Wang, J.-W.
- New search for: Fang, J.
- New search for: Guan, J.-F.
- New search for: Zhao, L.-Y.
- New search for: Lin, S.-B.
- New search for: Shah, H. R.
- New search for: Zhang, Y.-M.
- New search for: Sun, J.-H.
- New search for: Wang, J.-W.
- New search for: Fang, J.
- New search for: Guan, J.-F.
- New search for: Zhao, L.-Y.
- New search for: Lin, S.-B.
- New search for: Shah, H. R.
- New search for: Zhang, Y.-M.
- New search for: Sun, J.-H.
In:
Combustion, Explosion, and Shock Waves
;
56
, 4
;
375-382
;
2020
- Article (Journal) / Electronic Resource
-
Title:Radiative Fraction and Flame Length of Propane Jet Diffusion Flames in a Crossflow
-
Additional title:Combust Explos Shock Waves
-
Contributors:Wang, J.-W. ( author ) / Fang, J. ( author ) / Guan, J.-F. ( author ) / Zhao, L.-Y. ( author ) / Lin, S.-B. ( author ) / Shah, H. R. ( author ) / Zhang, Y.-M. ( author ) / Sun, J.-H. ( author )
-
Published in:Combustion, Explosion, and Shock Waves ; 56, 4 ; 375-382
-
Publisher:
- New search for: Pleiades Publishing
-
Place of publication:Moscow
-
Publication date:2020-08-01
-
Size:8 pages
-
ISSN:
-
DOI:
-
Type of media:Article (Journal)
-
Type of material:Electronic Resource
-
Language:English
-
Keywords:
-
Source:
Table of contents – Volume 56, Issue 4
The tables of contents are generated automatically and are based on the data records of the individual contributions available in the index of the TIB portal. The display of the Tables of Contents may therefore be incomplete.
- 375
-
Radiative Fraction and Flame Length of Propane Jet Diffusion Flames in a CrossflowWang, J.-W. / Fang, J. / Guan, J.-F. / Zhao, L.-Y. / Lin, S.-B. / Shah, H. R. / Zhang, Y.-M. / Sun, J.-H. et al. | 2020
- 383
-
Laminar Burning Velocity of the Dimethyl Carbonate–Air Mixture Formed by the Li-Ion Electrolyte SolventHenriksen, M. / Vaagseather, K. / Gaathaug, A. V. / Lundberg, J. / Forseth, S. / Bjerketvedt, D. et al. | 2020
- 394
-
Radiative Extinction of Laminar Diffusion Flame above the Flat Porous Burner in Microgravity: A Computational StudyKuznetsov, E. A. / Snegirev, A. Yu. / Markus, E. S. et al. | 2020
- 412
-
Ignition Delay of Fluorinated Ethylene Propylene Wire Insulation in a Forced Flow Field in MicrogravityWang, K. / Fang, J. / Wang, J.-W. / Zheng, S.-M. / Guan, J.-F. / Shah, H. R. / Wang, J.-J. / Zhang, Y.-M. et al. | 2020
- 421
-
Effects of the Particle Size and Agglomeration on the Minimum Explosible Concentration and Flame Propagation Velocity in Dust CloudsIchinose, K. / Mogi, T. / Dobashi, R. et al. | 2020
- 427
-
Effects of Inert Particulate Additives on Ignition and Flame Propagation in Dust–Air MixturesHüttenbrenner, K. / Kern, H. / Tomasch, S. / Raupenstrauch, H. et al. | 2020
- 435
-
Kinetic Simulation of Unsteady Detonation with Thermodynamic Nonequilibrium EffectsLin, C. / Luo, K. H. et al. | 2020
- 444
-
Calculation of Shock Waves in an Explosion of a Liquid Gas Pressure ReservoirYakush, S. E. et al. | 2020
- 454
-
On the Nature of the Synergistic Effect in Flames of Methane and Formaldehyde Mixtures with AirShvartsberg, V. M. / Bunev, V. A. et al. | 2020
- 464
-
Thermochemical and Energy Characteristics of N-(2,2-bis(methoxy-NNO-azoxy)ethyl)nitraminesZyuzin, I. N. / Lempert, D. B. / Nabatova, A. V. / Kazakov, A. I. et al. | 2020
- 471
-
Effect of Particle Size on Boron Combustion in AirShpara, A. P. / Yagodnikov, D. A. / Sukhov, A. V. et al. | 2020
- 479
-
Study of Shock-Compressed Argon Plasma Using Microwave DiagnosticsBogdanov, E. N. / Zhernokletov, M. V. / Kozlov, G. A. / Rodionov, A. V. et al. | 2020
- 486
-
Explosive Shaped Projectors for Forming High-Velocity Compact ElementsGerasimov, S. I. / Malyarov, D. V. / Sirotkina, A. G. / Kapinos, S. A. / Kalmykov, A. P. / Knyazev, A. S. et al. | 2020