The Phenomenon of Flame Jump in Counter-current Flame Propagation in Biomass Packed Beds - Experiments and Theory
In this paper the phenomenon of flame jump vis-a-vis steady propagation in biomass packed beds in counter-current mode is discussed. By analyzing the fuel flux and propagation rate data from experiments with a range of oxidizers, namely, air, O 2 -N 2 , O 2 -CO 2 , and O 2 -steam mixtures, parameter...
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| Published in | Combustion science and technology Vol. 194; no. 6; pp. 1199 - 1212 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
Taylor & Francis
26.04.2022
Taylor & Francis Ltd |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0010-2202 1563-521X |
| DOI | 10.1080/00102202.2020.1804886 |
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| Abstract | In this paper the phenomenon of flame jump vis-a-vis steady propagation in biomass packed beds in counter-current mode is discussed. By analyzing the fuel flux and propagation rate data from experiments with a range of oxidizers, namely, air, O
2
-N
2
, O
2
-CO
2
, and O
2
-steam mixtures, parameter regimes of steady propagation, and flame jump are identified. A theoretical basis for this classification is developed by analyzing the thermo-chemical conversion of single particles subject to flow and thermal conditions in a packed bed. The ratio of the ignition (
) to devolatilization (
) times is shown to emerge as the controlling parameter in determining the flame propagation regimes. It is found from the theoretical analysis that steady propagation occurs for
< 2 and transition to flame jump occurs if
2. Operational zones of a packed bed biomass system is mapped using the predicted ratio of
as a function of volatiles-based equivalence ratio (
). Implications of these results to practical ligno-cellulosic biomass combustion and gasification systems, especially using oxygen-steam mixtures for hydrogen generation, are brought out. |
|---|---|
| AbstractList | In this paper the phenomenon of flame jump vis-a-vis steady propagation in biomass packed beds in counter-current mode is discussed. By analyzing the fuel flux and propagation rate data from experiments with a range of oxidizers, namely, air, O
2
-N
2
, O
2
-CO
2
, and O
2
-steam mixtures, parameter regimes of steady propagation, and flame jump are identified. A theoretical basis for this classification is developed by analyzing the thermo-chemical conversion of single particles subject to flow and thermal conditions in a packed bed. The ratio of the ignition (
) to devolatilization (
) times is shown to emerge as the controlling parameter in determining the flame propagation regimes. It is found from the theoretical analysis that steady propagation occurs for
< 2 and transition to flame jump occurs if
2. Operational zones of a packed bed biomass system is mapped using the predicted ratio of
as a function of volatiles-based equivalence ratio (
). Implications of these results to practical ligno-cellulosic biomass combustion and gasification systems, especially using oxygen-steam mixtures for hydrogen generation, are brought out. In this paper the phenomenon of flame jump vis-a-vis steady propagation in biomass packed beds in counter-current mode is discussed. By analyzing the fuel flux and propagation rate data from experiments with a range of oxidizers, namely, air, O2-N2, O2-CO2, and O2-steam mixtures, parameter regimes of steady propagation, and flame jump are identified. A theoretical basis for this classification is developed by analyzing the thermo-chemical conversion of single particles subject to flow and thermal conditions in a packed bed. The ratio of the ignition () to devolatilization () times is shown to emerge as the controlling parameter in determining the flame propagation regimes. It is found from the theoretical analysis that steady propagation occurs for < 2 and transition to flame jump occurs if 2. Operational zones of a packed bed biomass system is mapped using the predicted ratio of as a function of volatiles-based equivalence ratio (). Implications of these results to practical ligno-cellulosic biomass combustion and gasification systems, especially using oxygen-steam mixtures for hydrogen generation, are brought out. |
| Author | Ambatipudi, Mani Kalyani S, Varunkumar V M, Jaganathan |
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| Cites_doi | 10.1016/j.wasman.2006.04.013 10.1080/00102200302372 10.1016/j.egypro.2017.07.212 10.1016/j.fuel.2009.01.024 10.1016/0009-2509(94)80040-5 10.1080/00102200108935825 10.1080/00102209508951919 10.1016/j.fuel.2019.01.171 10.1002/9780470694954.ch59 10.1016/S0082-0784(85)80657-3 10.1016/j.ijhydene.2019.05.095 10.1016/j.fuel.2011.09.044 10.1016/0010-2180(94)90078-7 10.1080/00102200600970019 10.1080/00102202.2013.782297 10.1016/j.fuel.2004.01.016 |
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| SubjectTerms | Biomass Biomass burning Carbon dioxide Devolatilization Equivalence ratio Flame jump Flame propagation flame propagation regimes Gasification Hydrogen production Mixtures Oxidizing agents packed bed Packed beds Parameter identification Propagation Theoretical analysis Volatile compounds |
| Title | The Phenomenon of Flame Jump in Counter-current Flame Propagation in Biomass Packed Beds - Experiments and Theory |
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