Use of aluminized composite solid propellants and submerged nozzles are common in solid rocket motors (SRM). Due to the generation of slag, which injects into a combusted gas flow, a two-phase flow pattern is one of the main flow characteristics that need to be investigated in SRM. Validation of two-phase flow modeling in a solid rocket motor combustion chamber is the focus of this research. The particles’ boundary conditions constrain their trajectories, which affect both the two-phase flow calculations, and the evaluation of the slag accumulation. A harsh operation environment in the SRM with high temperatures and high pressure makes the measurement of the internal flow field quite difficult. The open literature includes only a few sets of experimental data that can be used to validate theoretical analyses and numerical calculations for the two-phase flow in a SRM. Therefore, mathematical models that calculate the trajectories of particles may reach different conclusions mainly because of the boundary conditions. A new method to determine the particle velocities on the solid propellant surface is developed in this study, which is based on the x-ray real-time radiography (RTR) technique, and is coupled with the two-phase flow numerical simulation. Other methods imitate the particle ejection from the propellant surface. The RTR high-speed motion analyzer measures the trajectory of the metal particles in a combustion chamber. An image processing software was developed for tracing a slug particle path with the RTR images in the combustion chamber, by which the trajectories of particles were successfully obtained.
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September 2005
This article was originally published in
Journal of Heat Transfer
Technical Briefs
New Method to Determine the Velocities of Particles on a Solid Propellant Surface in a Solid Rocket Motor
Yumin Xiao,
Yumin Xiao
Mechanical Engineering Department,
University of Wisconsin-Milwaukee
, Milwaukee, WI 53211
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R. S. Amano,
R. S. Amano
Fellow ASME
Mechanical Engineering Department,
e-mail: amano@uwm.edu
University of Wisconsin-Milwaukee
, Milwaukee, WI 53211
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Timin Cai,
Timin Cai
College of Astronautics,
Northwestern Polytechnical University
, Xi’an, Shaanxi Province, 710072 People’s Republic of China
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Jiang Li
Jiang Li
College of Astronautics,
Northwestern Polytechnical University
, Xi’an, Shaanxi Province, 710072 People’s Republic of China
Search for other works by this author on:
Yumin Xiao
Mechanical Engineering Department,
University of Wisconsin-Milwaukee
, Milwaukee, WI 53211
R. S. Amano
Fellow ASME
Mechanical Engineering Department,
University of Wisconsin-Milwaukee
, Milwaukee, WI 53211e-mail: amano@uwm.edu
Timin Cai
College of Astronautics,
Northwestern Polytechnical University
, Xi’an, Shaanxi Province, 710072 People’s Republic of China
Jiang Li
College of Astronautics,
Northwestern Polytechnical University
, Xi’an, Shaanxi Province, 710072 People’s Republic of ChinaJ. Heat Transfer. Sep 2005, 127(9): 1057-1061 (5 pages)
Published Online: April 19, 2005
Article history
Received:
March 5, 2003
Revised:
April 19, 2005
Citation
Xiao, Y., Amano, R. S., Cai, T., and Li, J. (April 19, 2005). "New Method to Determine the Velocities of Particles on a Solid Propellant Surface in a Solid Rocket Motor." ASME. J. Heat Transfer. September 2005; 127(9): 1057–1061. https://doi.org/10.1115/1.1999652
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