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Journal Papers:

 

1.       Y.  Gan, L. Qiao, “Optical Properties and Radiation-enhanced Evaporation of Nanofluid Fuels Containing Carbon-based Nanostructures,” Energy&Fuels, 26 (7), 4224-4230, 2012.  [PDF]

2.       J. Xu, L. Qiao, “Mathematical Modeling of Coal Gasification Processes in a Well-Stirred Reactor: Effects of Devolatilization and Moisture Content,” Energy&Fuels, 26 (9), pp 5759–5768, 2012.  [PDF]

3.       Y. Gan, L. Qiao, “Radiation-enhanced Evaporation of Ethanol Fuel with Suspended Metal Nanoparticles,” International Journal of Heat and Mass Transfer, 55 (21-22) 5777-5782, 2012. [PDF]

4.       S. Tanvir, L. Qiao, “Surface Tension of Nanofluid Fuels with Stably Suspended Nanomaterials,” Nanoscale Research Letters, Vol 7, 226, 2012.

5.       L. Qiao, J. Xu, “Detailed Numerical Simulations of Flame Propagation in High-Volatile Dust Clouds,” Combustion Theory and Modeling, Vol 1, 1-27, 2012. [PDF]

6.       L. Qiao, J. Xu, A. Sane, J. Gore, “Multiphysics Modeling of Coal Gasification Processes in a Perfectly-stirred Reactor with Detailed Gas-Phase Chemistry,” Combustion and Flame, 159 (4) 1693–1707, 2012. [PDF]

7.       Y. Gan, Y. Lim, L. Qiao, “Combustion of Nanofluid Fuels with the Addition of Boron and Iron particles at Dense and Dilute Concentrations,” Combustion and Flame, 159 (4), 1732–1740, 2012. [PDF]

8.       D. Singh, T. Nishiie, S. Tanvir, L. Qiao, “Flame Speed and Kinetics Analysis of Syngas Flames at Elevated Temperatures and with Water Addition,” Fuel, 94, 448-456, 2012. [PDF]

9.       L. Qiao, “Transient Flame Propagation Process and Flame-Speed Oscillation Phenomenon in a Carbon Dust Cloud,” Combustion and Flame, 159 (2), 673-685, 2012. [PDF]

10.   Y. Gan, L. Qiao, “Evaporation Characteristics of Fuel Droplet with the Addition of Nanoparticles under Natural and Forced Convections”, International Journal of Heat and Mass Transfer, 54 (23-24), 4913-4922, 2011. [PDF]

11.   D. Singh, T. Nishiie, L. Qiao, “Experimental and Kinetic Modeling Study of the Combustion of n-Decane, Jet-A, and S-8 in Laminar Premixed Flames,” Combustion Science and Technology, 183, 1002-1026, 2011. [PDF]

12.   Y. Gan, L. Qiao, “Combustion Characteristics of Fuel Droplets Containing Micron and Nano-sized Aluminum Particles”, Combustion and Flame, 158, (2), 354-368, 2011. [PDF]

13.   L. Qiao, Y. Gan, T. Nishiie, W. J.A. Dahm, E.S. Oran, “Extinction of Premixed Methane/Air Flames in Microgravity by Diluents: the Effects of Radiation and Lewis Number,” Combustion and Flame, 157 (8): 1446-1455, 2010. [PDF]

14.   L. Qiao, Y. Gu, W.J.A. Dahm, E.S. Oran, G.M. Faeth, “A Study of the Effects of Diluents on Near-Limit H2-Air Flames in Microgravity at Normal and Reduced Pressures,” Combustion and Flame, 151: 196-208, 2007. [PDF]

15.   L. Qiao, Y. Gu, W.J.A. Dahm, E.S. Oran, G.M. Faeth, “Near-Limit Laminar Burning Velocities of Microgravity Premixed Hydrogen Flames with Various Chemically Passive Fire Suppressants,” Proceedings of the Combustion Institute, Vol. 31: 2701-2709, 2007. [PDF]

16.   L. Qiao, C.H. Kim, G.M. Faeth, “Suppression Effects of Diluents on Laminar Premixed Hydrogen/Oxygen /Nitrogen Flames,” Combustion and Flame, 143: 79-96, 2005. [PDF]

17.   L.X. Zhou, L. Qiao, J. Zhang, “Simulation of NOx Formation in Turbulent Swirling Combustion Using a USM Turbulence-Chemistry Model,” Acta Mechanica Sinica, 19 (3): 208-212, 2003. [PDF]

18.   L.X. Zhou, L. Qiao, X.L. Chen, J. Zhang, “A USM Turbulence-Chemistry Model for Simulating NOx Formation in Turbulent Combustion,” Fuel, 81 (13): 1703-1709, 2002. [PDF]

19.   L. Qiao, L.X. Zhou, “A USM Turbulence-Chemistry Model for Turbulent Combustion,” Journal of Combustion Science and Technology (Chinese), 8 (4): 297-301, 2002.

 

 

 

Revised Jan 2012