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Probability Density
Probability Density Function
Turbulent Diffusion
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Ignition in 40 kW co-axial turbulent diffusion oxy-coal jet flames
Ignition in 40 kW co-axial turbulent diffusion oxy-coal jet flames,10.1016/j.proci.2010.06.106,Proceedings of The Combustion Institute,Jingwei Zhang,K
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Ignition in 40 kW co-axial turbulent diffusion oxy-coal jet flames
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Citations: 3
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Jingwei Zhang
,
Kerry E. Kelly
,
Eric G. Eddings
,
Jost O. L. Wendt
This paper is directed towards understanding how composition of the coal transport medium (primary CO2 and O2) affects the observed ignition stand-off distance in 40kW co-axial turbulent diffusion, oxy-coal flames, supported in a specially designed combustion test rig, rated at 100kW. First, a methodology to define and quantify the observed ignition stand-off distance in laboratory combustor scale turbulent
pulverized coal
jets was developed and is described in detail. Results are presented in the form of
probability density
profiles of the measured stand-off distance, as obtained from replicate runs each consisting of six thousand photo-images. Several
probability density
functions showed multi-modal behavior representing semi-stable attached flames. Special tests in which the transport fluid only was interchanged between N2 and CO2, led to additional qualitative insight into ignition of coal in practical,
turbulent diffusion
flames. Results show that flame stability is affected by primary PO2, secondary preheat temperature, secondary PO2, and transport medium. Increasing secondary PO2 can stabilize the flame with zero PO2 in transport stream. The results presented in this paper can also provide a basis for validation of future detailed simulations of this process.
Journal:
Proceedings of The Combustion Institute - PROC COMBUST INST
, vol. 33, no. 2, pp. 3375-3382, 2011
DOI:
10.1016/j.proci.2010.06.106
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