Modelling of fire-suppressant injection into engine nacelle for various flight regimes
In this study, the injection of Halon 1301, an effective fire-suppressing agent, into a helicopter engine nacelle is modelled to provide insights into dispersion behaviour alongside complex flow physics. The injection velocity as well as the mass flow rate were retrieved via a 1-D pipe model to simu...
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sg-ntu-dr.10356-1711002023-10-14T16:48:17Z Modelling of fire-suppressant injection into engine nacelle for various flight regimes Mohamed Arif Mohamed New, Tze How Ng, Bing Feng School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Helicopter Fire Safety Halon 1301 In this study, the injection of Halon 1301, an effective fire-suppressing agent, into a helicopter engine nacelle is modelled to provide insights into dispersion behaviour alongside complex flow physics. The injection velocity as well as the mass flow rate were retrieved via a 1-D pipe model to simulate nitrogen-pressurized flow of Halon 1301 in a four-branch pipe system. The Discrete Phase Model in ANSYS Fluent was then used to model the injection of Halon 1301 into an engine nacelle. To simulate engine operation conditions in forward flight and hover regime, external boundary conditions were prescribed to the pressure inlets in the nacelle. When Halon 1301 is injected into the engine bay via the first pair of injection points, the droplets immediately reach their boiling point of 215 K. This resulted in an explosive-dispersion behaviour with a cone angle in the range of 80°–90°. As the agent evaporates, the engine cools and another pair of injection points located at the rear of the engine is subsequently activated, helping to cool the engine further. The two flight regimes considered, namely, hover and forward flight, showed contrast in flow dynamics which affected the cooling of the engine as well as the spray dynamics. In particular, the forward flight case showed more recirculation zones compared to the hover case. The volume concentrations of Halon 1301 were plotted for 11 probe points within the nacelle, and it was observed that two locations showed traces of low concentration levels. Submitted/Accepted version The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: The authors acknowledge the support provided for this study by Leonardo-Finmeccanica Helicopter Division. 2023-10-13T02:48:48Z 2023-10-13T02:48:48Z 2023 Journal Article Mohamed Arif Mohamed, New, T. H. & Ng, B. F. (2023). Modelling of fire-suppressant injection into engine nacelle for various flight regimes. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 237(13), 3111-3125. https://dx.doi.org/10.1177/09544100231181866 0954-4100 https://hdl.handle.net/10356/171100 10.1177/09544100231181866 2-s2.0-85162668425 13 237 3111 3125 en Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering © 2023 IMechE. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1177/09544100231181866. application/pdf |
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Engineering::Mechanical engineering Helicopter Fire Safety Halon 1301 |
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Engineering::Mechanical engineering Helicopter Fire Safety Halon 1301 Mohamed Arif Mohamed New, Tze How Ng, Bing Feng Modelling of fire-suppressant injection into engine nacelle for various flight regimes |
| description |
In this study, the injection of Halon 1301, an effective fire-suppressing agent, into a helicopter engine nacelle is modelled to provide insights into dispersion behaviour alongside complex flow physics. The injection velocity as well as the mass flow rate were retrieved via a 1-D pipe model to simulate nitrogen-pressurized flow of Halon 1301 in a four-branch pipe system. The Discrete Phase Model in ANSYS Fluent was then used to model the injection of Halon 1301 into an engine nacelle. To simulate engine operation conditions in forward flight and hover regime, external boundary conditions were prescribed to the pressure inlets in the nacelle. When Halon 1301 is injected into the engine bay via the first pair of injection points, the droplets immediately reach their boiling point of 215 K. This resulted in an explosive-dispersion behaviour with a cone angle in the range of 80°–90°. As the agent evaporates, the engine cools and another pair of injection points located at the rear of the engine is subsequently activated, helping to cool the engine further. The two flight regimes considered, namely, hover and forward flight, showed contrast in flow dynamics which affected the cooling of the engine as well as the spray dynamics. In particular, the forward flight case showed more recirculation zones compared to the hover case. The volume concentrations of Halon 1301 were plotted for 11 probe points within the nacelle, and it was observed that two locations showed traces of low concentration levels. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Mohamed Arif Mohamed New, Tze How Ng, Bing Feng |
| format |
Article |
| author |
Mohamed Arif Mohamed New, Tze How Ng, Bing Feng |
| author_sort |
Mohamed Arif Mohamed |
| title |
Modelling of fire-suppressant injection into engine nacelle for various flight regimes |
| title_short |
Modelling of fire-suppressant injection into engine nacelle for various flight regimes |
| title_full |
Modelling of fire-suppressant injection into engine nacelle for various flight regimes |
| title_fullStr |
Modelling of fire-suppressant injection into engine nacelle for various flight regimes |
| title_full_unstemmed |
Modelling of fire-suppressant injection into engine nacelle for various flight regimes |
| title_sort |
modelling of fire-suppressant injection into engine nacelle for various flight regimes |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171100 |
| _version_ |
1781793783906566144 |