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2020 | OriginalPaper | Chapter

Numerical Investigation on Temperature Profile of Horizontally Oriented Subsonic Jet Fires with Square Fuel Source

Authors : Youbo Huang, Yanfeng Li, Bingyan Dong

Published in: The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology

Publisher: Springer Singapore

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Abstract

The temperature profile of horizontally oriented jet flame with square fuel source has rarely been investigated in past years; especially, the effect of fuel portal geometry aspect ratio on temperature distribution of horizontally oriented jet flame has little appeared in the previous literature. In order to study the temperature profile of horizontal jet fire, a numerical simulated code was carried out to simulate horizontal jet fire with square fire source and natural gas as fuel. The fuel jet velocity was varied from 27.5 to 205.8 m/s. The temperature distribution features on horizontal and vertical directions were investigated, and the temperature prediction model was amended. The results show that the temperature is influenced by fuel jet velocity heavily. The heat release rate increases linearly with fuel jet velocity, and the slope is 29.1. The horizontal maximum temperature on orifice centerline direction rises from 304.5 to 614.8 °C with fuel jet velocity increase. The predicted model is modified to apply to horizontal jet fire, and the predictions by amended model agree well with simulated data.

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Literature
1.
go back to reference API581. (2008). Risk based inspection technology. American Petroleum Institute. API581. (2008). Risk based inspection technology. American Petroleum Institute.
2.
go back to reference Gómez-Mares, M., Zárate, L., & Casal, J. (2008). Jet fires and the domino effect. Fire Safety Journal, 43, 583–588.CrossRef Gómez-Mares, M., Zárate, L., & Casal, J. (2008). Jet fires and the domino effect. Fire Safety Journal, 43, 583–588.CrossRef
3.
go back to reference Quintiere, J. G., & Grove, B. S. (1998). A unified analysis for fire plumes. Proceedings of the Combustion Institute, 27, 2757–2766.CrossRef Quintiere, J. G., & Grove, B. S. (1998). A unified analysis for fire plumes. Proceedings of the Combustion Institute, 27, 2757–2766.CrossRef
4.
go back to reference Zhang, X. C., Hu, L. H., Zhu, W., & Yang, L. (2014). Axial temperature profile in buoyant plume of square fuel source jet fire in normal and a sub atmospheric pressure. Fuel, 134, 455–459.CrossRef Zhang, X. C., Hu, L. H., Zhu, W., & Yang, L. (2014). Axial temperature profile in buoyant plume of square fuel source jet fire in normal and a sub atmospheric pressure. Fuel, 134, 455–459.CrossRef
5.
go back to reference Lowesmith, B. J., & Hankinson, G. (2012). Large scale high pressure jet fires involving natural gas and natural gas hydrogen mixtures. Process Safety and Environmental Protection, 90, 108–120.CrossRef Lowesmith, B. J., & Hankinson, G. (2012). Large scale high pressure jet fires involving natural gas and natural gas hydrogen mixtures. Process Safety and Environmental Protection, 90, 108–120.CrossRef
6.
go back to reference Zhang, X. L., Hu, L. H., Zhang, X. C., Tang, F., Jiang, Y., & Lin, Y. J. (2017). Flame projection distance of horizontally oriented buoyant turbulent rectangular jet fires. Combustion and Flame, 176, 370–376.CrossRef Zhang, X. L., Hu, L. H., Zhang, X. C., Tang, F., Jiang, Y., & Lin, Y. J. (2017). Flame projection distance of horizontally oriented buoyant turbulent rectangular jet fires. Combustion and Flame, 176, 370–376.CrossRef
7.
go back to reference Gopalaswami, N., Liu, Y., Laboureur, D. M., Zhang, B., & Mannan, M. S. (2016). Experimental study on propane jet fire hazards comparison of main geometrical features with empirical models. Journal of Loss Prevention in the Process Industries, 41, 365–375.CrossRef Gopalaswami, N., Liu, Y., Laboureur, D. M., Zhang, B., & Mannan, M. S. (2016). Experimental study on propane jet fire hazards comparison of main geometrical features with empirical models. Journal of Loss Prevention in the Process Industries, 41, 365–375.CrossRef
8.
go back to reference Laboureur, D. M., Gopalaswami, N., Zhang, B., Liu, Y., & Mannan, M. S. (2016). Experimental study on propane jet fire hazards: Assessment of the main geometrical features of horizontal jet flames. Journal of Loss Prevention in the Process Industries, 41, 355–364.CrossRef Laboureur, D. M., Gopalaswami, N., Zhang, B., Liu, Y., & Mannan, M. S. (2016). Experimental study on propane jet fire hazards: Assessment of the main geometrical features of horizontal jet flames. Journal of Loss Prevention in the Process Industries, 41, 355–364.CrossRef
9.
go back to reference Johnson, A. D., Brightwell, H. M., & Carsley, A. J. (1994). A model for predicting the thermal radiation hazards from large-scale horizontally released natural gas jet fires. Transactions of the Institution of Chemical Engineers, 72(B), 157–166. Johnson, A. D., Brightwell, H. M., & Carsley, A. J. (1994). A model for predicting the thermal radiation hazards from large-scale horizontally released natural gas jet fires. Transactions of the Institution of Chemical Engineers, 72(B), 157–166.
10.
go back to reference Tao, C. F., Qian, Y. J., Tang, F., & Wang, Q. (2017). Experimental investigations on temperature profile and air entrainment of buoyancy-controlled jet flame from inclined nozzle bounded the wall. Applied Thermal Engineering, 111, 510–515.CrossRef Tao, C. F., Qian, Y. J., Tang, F., & Wang, Q. (2017). Experimental investigations on temperature profile and air entrainment of buoyancy-controlled jet flame from inclined nozzle bounded the wall. Applied Thermal Engineering, 111, 510–515.CrossRef
11.
go back to reference Yuan, L. M., & Cox, G. (1996). An experimental study of some fire lines. Fire Safety Journal, 27, 123–139.CrossRef Yuan, L. M., & Cox, G. (1996). An experimental study of some fire lines. Fire Safety Journal, 27, 123–139.CrossRef
12.
go back to reference McGrattan, K., Hostikka, S., Floyd, J., Baum, H., Rehm, R., Mell, W., & McDermott, R. (2010). Fire dynamics simulator (version 5): Technical reference guide. NIST Special Publication. McGrattan, K., Hostikka, S., Floyd, J., Baum, H., Rehm, R., Mell, W., & McDermott, R. (2010). Fire dynamics simulator (version 5): Technical reference guide. NIST Special Publication.
Metadata
Title
Numerical Investigation on Temperature Profile of Horizontally Oriented Subsonic Jet Fires with Square Fuel Source
Authors
Youbo Huang
Yanfeng Li
Bingyan Dong
Copyright Year
2020
Publisher
Springer Singapore
DOI
https://doi.org/10.1007/978-981-32-9139-3_1