Journal article
Propagation of laminar flames in wet premixed natural gas-air mixtures
Process Safety and Environmental Protection, Vol.76(2), pp.81-89
1998
Abstract
The present work investigates the effect of adding small amounts of humidity on the inhibition of natural gas-air flames. The inhibition is quantified by measuring and calculating the laminar burning velocities (Su) of premixed flames from a C1-C2 mechanism. The experimental apparatus consists of a Mache-Hebra burner, equipped with flow controllers and air purification system. Steam is generated by injecting water into a preheated natural gas-air stream, by means of a syringe pump. The burning velocities are determined experimentally from the schlieren photography using the total flame area. The results indicate decreasing burning velocities with increasing steam concentration, demonstrating the importance of thermal capacity of water vapour on slowing down the flame propagation. There is no indication of flame acceleration due to kinetic considerations, even when the flames are doped with minute moisture loadings. It is shown in the calculations that the laminar burning velocity depends strongly on the number of grid points, and so a scaling relationship is developed for adjusting the computed values of Su. The kinetic model predicts closely the experimental results, but the agreement between the experimental and numerical data is better at lower temperatures. The relationship between Su and the concentration of the added water vapour, as calculated from the model, is linear. For the natural gas considered in this work, the laminar burning velocity at the atmospheric pressure decreases by 1.81 cm s-1 at 150°C for each percentage point of humidity present in the gas mixture, and by 1.18 cm s-1 at 20°C.
Details
- Title
- Propagation of laminar flames in wet premixed natural gas-air mixtures
- Authors/Creators
- B.Z. Dlugogorski (Author/Creator)R.K. Hichens (Author/Creator)E.M. Kennedy (Author/Creator)J.W. Bozzelli (Author/Creator)
- Publication Details
- Process Safety and Environmental Protection, Vol.76(2), pp.81-89
- Publisher
- Institution of Chemical Engineers
- Identifiers
- 991005543564507891
- Copyright
- © Institution of Chemical Engineers.
- Murdoch Affiliation
- Murdoch University
- Language
- English
- Resource Type
- Journal article
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- Citation topics
- 7 Engineering & Materials Science
- 7.177 Combustion
- 7.177.238 Combustion Dynamics
- Web Of Science research areas
- Engineering, Chemical
- Engineering, Environmental
- ESI research areas
- Environment/Ecology