Study of Fuel Composition Effects on Flashback Using a Confined Jet Flame Burner

Shaffer, Brendan; Duan, Zhixuan; McDonell, Vincent

doi:10.1115/1.4007345

Cited by 20 publications

(14 citation statements)

References 27 publications

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“…In most of UCI's previous work, a quartz enclosure was used as a strategy to stabilize the flame on top of the burner tube [23]. In most of UCI's previous work, a quartz enclosure was used as a strategy to stabilize the flame on top of the burner tube [23].…”

Section: Parameters Studiedmentioning

confidence: 99%

“…This unique method was introduced to simulate a typical practical gas turbine control strategy [23]. The AFT is held constant in each EB experiment.…”

Section: Protocol I: Constant Adiabatic Flame Temperature (Aft)mentioning

confidence: 99%

“…In more recent work, though not considering BLF, Kedia and Ghoniem [22] studied the effect of flame holder material on combustion dynamics. Shaffer et al [23] also proposed a relationship between flashback propensity and the thermal conditions near the burner rim. Manuscript received July 3.…”

Section: Introductionmentioning

confidence: 99%

“…Recent work has been conducted independently by UCI and TUM examining these issues [23,25]. In all cases, thermal coupling between the flame and burner rim has been found to be very important for the onset of FB.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Influence of Burner Material, Tip Temperature, and Geometrical Flame Configuration on Flashback Propensity of H2-Air Jet Flames

Duan¹,

Shaffer²,

McDonell

et al. 2013

Journal of Engineering for Gas Turbines and Power

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Flashback is a key operability issue for low emission premixed combustion systems operated on high hydrogen content fuels. Frevious work investigated fuel composition impacts on flasliback propensity and found that burner tip temperature was important in correlating flashback data in premixed jet flames. An enclosure around tiie jet flame was found to enhance the flame-burner rim interaction. The present study further addresses these issues using a jet burner with various geometric configurations and interchangeable materials. Systematic studies addressing the quantitative influence of various parameters such as tip temperature, burner material, enclosure size, and burner diameter on flashback propensity were carried out. A comprehensive overview of the flashback limits for all conditions tested in the current study as well as those published previously is given. Tlie collective results indicate that the burner materials, tip temperature, and flame confinement play significant roles for flashback propensity and thus help explain previous scatter in flashback data. Furthermore, the present work indicates that the upstream flame propagation during flashback is affected by the burner material. The material with lower thermal conductivity yields larger flashback propensity but slower flame regression inside the tube. These observations can be potentially exploited to minimize the negative impacts of flashback in practical applications.

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Section: Parameters Studiedmentioning

confidence: 99%

“…This unique method was introduced to simulate a typical practical gas turbine control strategy [23]. The AFT is held constant in each EB experiment.…”

Section: Protocol I: Constant Adiabatic Flame Temperature (Aft)mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Influence of Burner Material, Tip Temperature, and Geometrical Flame Configuration on Flashback Propensity of H2-Air Jet Flames

Duan¹,

Shaffer²,

McDonell

et al. 2013

Journal of Engineering for Gas Turbines and Power

Self Cite

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“…Several authors [8][9][10] stated that the behaviour of fuel mixture can be significantly different than that of individual constituents. Syred et al 11,17 showed considerable difference in flashback blowoff limits when increasing the hydrogen content of the fuel, whilst demonstrating that these limits could be correlated with the inlet tangential velocity level..…”

Section: Introductionmentioning

confidence: 99%

Experimental Investigation of the Effects of Central Fuel Injectors on Premixed Swirling Flames

Hatem

Valera‐Medina

Syred

et al. 2015

53rd AIAA Aerospace Sciences Meeting

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The demand for alternative fuels has increased significantly during the previous decades in order to reduce pollutants and increase the amount of energy that can be generated from nonfossil fuels. However, the use of new fuels faces many issues especially the problem of stability of operation which sometimes can cause severe damages to the system hardware. Thus the development of flexible combustion systems for gas turbines becomes urgent in order to achieve high reliability with these new sources of energy.Swirl stabilized combustion is the most widely spread deployed technology used to stabilize and control combustion in gas turbines and numerous other systems. However, the interaction of the swirling flows with the burner geometries is very complex and it has been proved that any change in the burner geometry can affect the flow field inside the combustion chamber, close to the burner mouth and downstream the combustion zone. Most burners are generally provided with a diffusive injector that centrally delivers well-known fuels allowing the stabilization of the system previous to entirely premixed conditions. Moreover, the injector anchors the central recirculation zone formed downstream of the nozzle. However, the use of injectors can also affect the stability limits of the system, especially the propagation of flashback through changes of shape of the shear layer since other structures such as the Combustion Induced Vortex Breakdown are suppressed due to the presence of this central body. However, the characterization of the flow and its impacts on the propagation of these and other flashback structures using different injectors has been briefly documented.

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Coupling between premixed flame propagation and swirl flow during boundary layer flashback

2018

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Flashback of premixed methane-air flames in the turbulent boundary layer of swirling flows is investigated experimentally. The premix section of the atmospheric model swirl combustor features an axial swirler with an attached center-body. Our previous work with this same configuration investigated the flame propagation during flashback using particle image velocimetry (PIV) with liquid droplets as seed particles that precluded making measurements in the burnt gases. The present study investigates the transient velocity field in the unburnt and burnt gas region by means of solid-particle seeding and high-speed stereoscopic PIV. The global axial and circumferential lab-frame flame propagation speed is obtained simultaneously based on high-speed chemiluminescence movies. By combining the PIV data with the global flame propagation speed, the quasiinstantaneous swirling motion of the velocity field is constructed on annular shells, which provides a more intuitive view on the complex three-dimensional flow-flame interaction. Previous works showed that flashback is led by flame tongues. We find that the important flow-flame interaction occurs on the far side of these flame tongues relative to the approach flow, which we henceforth refer to as the leading side. The leading side is found to propagate as a classical premixed flame front relative to the strongly modified approach flow field. The blockage imposed by flame tongues is not limited to the immediate vicinity of the flame base, but occurs along the entire leading side.

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Study of Fuel Composition Effects on Flashback Using a Confined Jet Flame Burner

Cited by 20 publications

References 27 publications

Influence of Burner Material, Tip Temperature, and Geometrical Flame Configuration on Flashback Propensity of H2-Air Jet Flames

Influence of Burner Material, Tip Temperature, and Geometrical Flame Configuration on Flashback Propensity of H2-Air Jet Flames

Experimental Investigation of the Effects of Central Fuel Injectors on Premixed Swirling Flames

Coupling between premixed flame propagation and swirl flow during boundary layer flashback

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