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Combustion Science and Technology Volume 5, 1972 - Issue 1
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Original Articles

Boron Combustion Characteristics in Ducted Rockets

K. SCHADOW Michelson Laboratories, Naval Weapons Center, China Lake, California
Pages 107-117 | Received 27 Jan 1972, Published online: 10 May 2007

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R. BHASKARA RAO, HARIHAR SINGH & P. NAGESWARA RAO. (1995) A Combustion Study of Metal Powders in Contact with Sodium Nitrate. Combustion Science and Technology 110-111:1, pages 185-195.
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Lingqi ZHU, Baozhong ZHU, Xiaolong ZHAO, Yanan WANG, Mengchen LI, Jiuyu CHEN & Yunlan Sun. (2023) Using polyvinylidene fluoride to improve ignition and combustion of micron-sized boron powder by fluorination reaction. Chinese Journal of Aeronautics 36:10, pages 64-76.
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Saugata Mandal, Syed Alay Hashim, Arnab Roy & Srinibas Karmakar. (2023) A short review of challenges and prospects of boron-laden solid fuels for ramjet applications. FirePhysChem 3:3, pages 179-200.
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Wenxiong Xi, Jian Liu & Ren Mengfei. (2021) Improvement of Mixing Efficiency in the Combustion Chamber of a Powder-Fuel Ramjet Engine. Frontiers in Energy Research 9.
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Jifei Yuan, Jianzhong Liu, Linqing Zhang, Peihui Xu, Di Chen & Weijuan Yang. (2021) Combustion and agglomeration characteristics of boron particles in boron-containing fuel-rich propellant. Combustion and Flame 232, pages 111551.
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Xiang Tang, Xiaotao Tian, Meng Huang, Junyi Chen, Mi Yan, Zhao Wang & Bo Zhang. (2021) Study on Combustion Flow-Field of Solid Ducted Rocket with Multiple Gas Nozzles. Study on Combustion Flow-Field of Solid Ducted Rocket with Multiple Gas Nozzles.
Binbin Chen, Zhixun Xia, Liya Huang & Likun Ma. (2018) Characteristics of the combustion chamber of a boron-based solid propellant ducted rocket with a chin-type inlet. Aerospace Science and Technology 82-83, pages 210-219.
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Lin-lin Liu, Guo-Qiang He, Ying-Hong Wang, Song-Qi Hu & Yuan-Min Liu. (2017) Factors Affecting the Primary Combustion Products of Boron-Based Fuel-Rich Propellants. Journal of Propulsion and Power 33:2, pages 333-337.
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Albert Epshteyn, Michael R. Weismiller, Zachary J. Huba, Emily L. Maling & Adam S. Chaimowitz. (2017) Optimization of a High-Energy Ti–Al–B Nanopowder Fuel. Energy & Fuels 31:2, pages 1811-1819.
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Daolun Liang, Jianzhong Liu, Jinwu Xiao, Jianfei Xi, Yang Wang & Junhu Zhou. (2015) Effect of metal additives on the composition and combustion characteristics of primary combustion products of B-based propellants. Journal of Thermal Analysis and Calorimetry 122:1, pages 497-508.
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Daoping LiuZhixun XiaLiya HuangJianxin Hu. (2015) Boron Particle Combustion in Solid Rocket Ramjets. Journal of Aerospace Engineering 28:4.
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Daolun Liang, Jianzhong Liu, Jinwu Xiao, Jianfei Xi, Yang Wang, Yanwei Zhang & Junhu Zhou. (2015) Energy release properties of amorphous boron and boron-based propellant primary combustion products. Acta Astronautica 112, pages 182-191.
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Naminosuke Kubota. 2015. Propellants and Explosives. Propellants and Explosives 471 501 .
Soojong Kim & Benveniste Natan. (2015) Inlet Geometry and Equivalence Ratio Effects on Combustion in a Ducted Rocket. Journal of Propulsion and Power 31:2, pages 619-631.
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Lin-Lin Liu, Guo-Qiang He, Ying-Hong Wang & Song-Qi Hu. (2015) Chemical analysis of primary combustion products of boron-based fuel-rich propellants. RSC Advances 5:123, pages 101416-101426.
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Robert A. Stowe, Charles Dubois, Paul G. Harris, Alfons E.H.J. Mayer, Alain deChamplain & Sophie Ringuette. (2004) Performance Prediction of a Ducted Rocket Combustor Using a Simulated Solid Fuel. Journal of Propulsion and Power 20:5, pages 936-944.
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R. Stowe, A. DeChamplain, A. Mayer & S. Niemeijer. (1998) Modelling and flow visualization of mixing in a ducted rocket combustor. Modelling and flow visualization of mixing in a ducted rocket combustor.
SHING-CHUNG ONN, HAU-JEI CHIANG, HANG-CHE HWANG, JEN-KO WEI & DAO-LIEN CHERNG. (1993) Optimization of operation conditions and configurations for solid-propellant ducted rocket combustors. Optimization of operation conditions and configurations for solid-propellant ducted rocket combustors.
CHRISTIAN PERUT. 1993. Solid Rocket Propulsion Technology. Solid Rocket Propulsion Technology 525 552 .
N. Kubota, K. Miyata, T. Kuwahara, M. Mitsuno & I. Nakagawa. (2004) Energetic Solid Fuels for Ducted Rockets (III). Propellants, Explosives, Pyrotechnics 17:6, pages 303-306.
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D. Albagli & Y. Levy. (1991) Experimental study on confined two-phase jets. Journal of Thermophysics and Heat Transfer 5:3, pages 387-393.
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N. Kubota & T. Kuwahara. (1991) Combustion of Energetic Fuel for Ducted Rockets (I). Propellants, Explosives, Pyrotechnics 16:2, pages 51-54.
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D. Albagli & Y. Levy. (1990) Prediction of two-phase flowfield in ram combustors. Journal of Thermophysics and Heat Transfer 4:2, pages 170-179.
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D. L. Cherng, V. Yang & K. Kuo. (1989) Numerical study of turbulent reacting flows in solid-propellant ducted rocket combustors. Journal of Propulsion and Power 5:6, pages 678-685.
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W. HSIEH & V. YANG. (1989) Measurement of flowfield in a simulated solid-propellant ducted rocket combustor using laser Doppler velocimetry. Measurement of flowfield in a simulated solid-propellant ducted rocket combustor using laser Doppler velocimetry.
V. YANG & K. KUO. (1988) Simulations of three-dimensional turbulent reacting flows in solid-propellant ducted rocket conbustors. Simulations of three-dimensional turbulent reacting flows in solid-propellant ducted rocket conbustors.
M. MITSUNO, T. KUWAHARA, K. KOSAKA & N. KUBOTA. (1987) Combustion of metallized propellants for ducted rockets. Combustion of metallized propellants for ducted rockets.
C. VIGOT, L. BARDELLE & L. NADAUD. (1986) Improvement of boron combustion in a solid-fuel ramrocket. Improvement of boron combustion in a solid-fuel ramrocket.
Saburo Yuasa & Tadao Takeno. (1982) Ignition and combustion of magnesium-aluminum alloy particle clouds in a hot gas stream. Symposium (International) on Combustion 19:1, pages 741-748.
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J. Cueilleron & F. Thevenot. 1977. Boron and Refractory Borides. Boron and Refractory Borides 203 213 .
Klaus Schadow. (1975) Fuel-Rich Particle-Laden Plume Combustion. AIAA Journal 13:12, pages 1553-1554.
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S. W. ABBOTT, L. D. SMOOT & K. SCHADOW. (1974) Direct Mixing and Combustion Efficiency Measurements in Ducted, Particle-Laden Jets. AIAA Journal 12:3, pages 275-282.
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KLAUS SCHADOW. (1973) Study of gas-phase reactions in particle-laden, ducted flows.. AIAA Journal 11:7, pages 1042-1044.
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K. SCHADOW. (1973) The influence of combustor parameters on the combustion of particle-laden fuels in ducted flows. The influence of combustor parameters on the combustion of particle-laden fuels in ducted flows.
S. ABBOTT, L. SMOOT & K. SCHADOW. (1972) Direct mixing and combustion measurements in ducted, particle-laden jets. Direct mixing and combustion measurements in ducted, particle-laden jets.

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