Comparative analysis of alternative fuels in detonation combustion
Detonation combustion prominently exhibits high thermodynamic efficiency which leads to better performance. As compared to the conventionally used isobaric heat addition in a Brayton cycle combustor, detonation uses a novel isochoric Humphrey cycle which utilises shocks and detonation waves to provi...
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American Institute of Aeronautics and Astronautics (AIAA)
2016
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my.iium.irep.652792018-09-13T08:27:01Z http://irep.iium.edu.my/65279/ Comparative analysis of alternative fuels in detonation combustion Azami, Muhammad Hanafi Savill, Mark TL500 Aeronautics TL780 Rockets Detonation combustion prominently exhibits high thermodynamic efficiency which leads to better performance. As compared to the conventionally used isobaric heat addition in a Brayton cycle combustor, detonation uses a novel isochoric Humphrey cycle which utilises shocks and detonation waves to provide pressure-rise combustion. Such unsteady combustion has already been explored in wave rotor, pulse detonation engine and rotating detonation engine configurations as alternative technologies for the next generation of the aerospace propulsion systems. However, in addition to the better performance that the detonation mode of combustion offers, it is crucial to observe the environmental concerns as well. Therefore, this paper presents a one-dimensional numerical analysis for alternative fuels: Jet-A, Acetylene, Jatropha Bio-synthetic Paraffinic Kerosene, Camelina Bio-synthetic Paraffinic Kerosene, Algae Biofuel, and Microalgae Biofuel under detonation combustion conditions. For simplicity, the analysis is modelled using an open tube geometry. The analysis employs the Rankine-Hugoniot Equation, Rayleigh Line Equation, and Zel’dovich–von Neumann–Doering model and takes into account species mole, mass fraction, and enthalpies-of-formation of the reactants. Initially, minimum conditions for the detonation of each fuel are determined. Pressure, temperature, and density ratios at each stage of the combustion tube for different types of fuel are then explored systematically. Finally, the influence of different initial conditions is numerically examined to make a comparison for these fuels. American Institute of Aeronautics and Astronautics (AIAA) 2016 Conference or Workshop Item PeerReviewed application/pdf en http://irep.iium.edu.my/65279/7/65279%20Comparative%20Analysis%20of%20Alternative%20Fuels%20in%20Detonation.pdf Azami, Muhammad Hanafi and Savill, Mark (2016) Comparative analysis of alternative fuels in detonation combustion. In: 52nd AIAA/SAE/ASEE Joint Propulsion Conference, 25th-27th July 2016, Salt Lake City, Utah, US. https://arc.aiaa.org/action/showMultipleAbstracts?expandall=on&doi=10.2514%2F6.2016-5104&href=%2Fdoi%2Fbook%2F10.2514%2FMJPC16&title=+%28%29 10.2514/6.2016-5104 |
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TL500 Aeronautics TL780 Rockets Azami, Muhammad Hanafi Savill, Mark Comparative analysis of alternative fuels in detonation combustion |
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Detonation combustion prominently exhibits high thermodynamic efficiency which leads to better performance. As compared to the conventionally used isobaric heat addition in a Brayton cycle combustor, detonation uses a novel isochoric Humphrey cycle which utilises shocks and detonation waves to provide pressure-rise combustion. Such unsteady combustion has already been explored in wave rotor, pulse detonation engine and rotating detonation engine configurations as alternative technologies for the next generation of the aerospace propulsion systems. However, in addition to the better performance that the detonation mode of combustion offers, it is crucial to observe the environmental concerns as well. Therefore, this paper presents a one-dimensional numerical analysis for alternative fuels: Jet-A, Acetylene, Jatropha Bio-synthetic Paraffinic Kerosene, Camelina Bio-synthetic Paraffinic Kerosene, Algae Biofuel, and Microalgae Biofuel under detonation combustion conditions. For simplicity, the analysis is modelled using an open tube geometry. The analysis employs the Rankine-Hugoniot Equation, Rayleigh Line Equation, and Zel’dovich–von Neumann–Doering model and takes into account species mole, mass fraction, and
enthalpies-of-formation of the reactants. Initially, minimum conditions for the detonation of each fuel are determined. Pressure, temperature, and density ratios at each stage of the combustion tube for different types of fuel are then explored systematically. Finally, the
influence of different initial conditions is numerically examined to make a comparison for these fuels. |
| format |
Conference or Workshop Item |
| author |
Azami, Muhammad Hanafi Savill, Mark |
| author_facet |
Azami, Muhammad Hanafi Savill, Mark |
| author_sort |
Azami, Muhammad Hanafi |
| title |
Comparative analysis of alternative fuels in detonation
combustion |
| title_short |
Comparative analysis of alternative fuels in detonation
combustion |
| title_full |
Comparative analysis of alternative fuels in detonation
combustion |
| title_fullStr |
Comparative analysis of alternative fuels in detonation
combustion |
| title_full_unstemmed |
Comparative analysis of alternative fuels in detonation
combustion |
| title_sort |
comparative analysis of alternative fuels in detonation
combustion |
| publisher |
American Institute of Aeronautics and Astronautics (AIAA) |
| publishDate |
2016 |
| url |
http://irep.iium.edu.my/65279/7/65279%20Comparative%20Analysis%20of%20Alternative%20Fuels%20in%20Detonation.pdf http://irep.iium.edu.my/65279/ https://arc.aiaa.org/action/showMultipleAbstracts?expandall=on&doi=10.2514%2F6.2016-5104&href=%2Fdoi%2Fbook%2F10.2514%2FMJPC16&title=+%28%29 |
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