Visualization of Different Flashback Mechanisms for H2/CH4 Mixtures in a Variable-Swirl Burner

Flame flashback from the combustion chamber to the premixing section is a major operability issue when using high H-2 content fuels in lean premixed combustors. Depending on the flow-field in the combustor, flashback can be triggered by different mechanisms. In this work, three flashback mechanisms of H-2/CH4 mixtures were visualized in an atmospheric variable-swirl burner using high speed OH* chemiluminescence imaging. The H-2 mole fraction of the tested fuel mixtures varied between 0.1 and 0.9. The flow-field in the combustor was varied by changing the swirl number from 0.0 to 0.66 and the total air mass-flow rate from 75 to 200 SLPM (standard liters per minute). The following three types of flashback mechanism were observed: Flashback caused by combustion induced vortex breakdown (CIVB) occurred at swirl numbers >= 0.53 for all of the tested fuel mixtures. Flashback in the boundary layer (BL) and flame propagation in the premixing tube caused by auto-ignition were observed at low swirl numbers and low total air mass-flow rates. The temporal and spatial propagation of the flame in the optical section of the premixing tube during flashback was studied and flashback speed for different mechanisms was estimated. The flame propagation speed during flashback was significantly different for the different mechanisms. (Less)

[1]  János M. Beér,et al.  Combustion in swirling flows: A review , 1974 .

[2]  B. Fine The flashback of laminar and turbulent burner flames at reduced pressure , 1958 .

[3]  Thomas Sattelmayer,et al.  Flashback Limits for Combustion Induced Vortex Breakdown in a Swirl Burner , 2003 .

[4]  Dr.J. van Steenis Combustion, flames and explosion of gases : Academic Press Inc., Publishers, New York 1951. 795pp. Price $14. , 1952 .

[5]  Vincent McDonell,et al.  Study of Fuel Composition Effects on Flashback Using a Confined Jet Flame Burner , 2013 .

[6]  Experimental Investigation of Turbulent Boundary Layer Flashback Limits for Premixed Hydrogen-Air Flames Confined in Ducts , 2012 .

[7]  T. Lieuwen,et al.  Fuel Flexibility Influences on Premixed Combustor Blowout, Flashback, Autoignition, and Stability paper addresses the impact of fuel composition on the operability of lean premixed , 2006 .

[8]  Thomas Sattelmayer,et al.  Flashback in a Swirl Burner With Cylindrical Premixing Zone , 2004 .

[9]  S. Plee,et al.  Review of flashback reported in prevaporizing/premixing combustors☆ , 1978 .

[10]  V. McDonell,et al.  Autoignition of Hydrogen and Air Inside a Continuous Flow Reactor With Application to Lean Premixed Combustion , 2008 .

[11]  A. Konnov,et al.  OH*-chemiluminescence during autoignition of hydrogen with air in a pressurised turbulent flow reactor , 2014 .

[12]  T. Sattelmayer,et al.  FLAME PROPAGATION IN SWIRLING FLOWS—EFFECT OF LOCAL EXTINCTION ON THE COMBUSTION INDUCED VORTEX BREAKDOWN , 2007 .

[13]  Tim Lieuwen,et al.  Burner Development and Operability Issues Associated with Steady Flowing Syngas Fired Combustors , 2008 .

[14]  H. Tsuji,et al.  An experimental investigation on the stability of turbulent burner flames , 1961 .

[15]  P. Moriarty,et al.  Intermittent renewable energy: The only future source of hydrogen? , 2007 .

[16]  K. Wohl Quenching, flash-back, blow-off-theory and experiment , 1953 .

[17]  Akira Umemura,et al.  Rapid flame propagation in a vortex tube in perspective of vortex breakdown phenomena , 2001 .