Effect of combustion pressure on regression rate of solid fuel under an impinging oxidizer jet counterflow diffusion flame

Author:

TERAKAWA Ken1,SAITO Tatsuya1,NAKAMURA Yuji1,MATSUOKA Tsuneyoshi2,NAGATA Harunori1,TOTANI Tsuyoshi1,WAKITA Masashi1

Affiliation:

1. Division of Mechanical and Space Engineering, Graduate School of Engineering, Hokkaido University

2. Division of Mechanical Engineering, Toyohashi University of Technology

Publisher

Japan Society of Mechanical Engineers

Subject

Engineering (miscellaneous),Instrumentation,General Materials Science,Atomic and Molecular Physics, and Optics

Reference26 articles.

1. Beyler, C.L. and Hirschler, M.N., Thermal decomposition of polymers, SFPE Handbook of fire protection engineering (2nd Edn) (1995), pp.1.99-1.119.

2. Floyd, J., Forney, G., Hostikka, S., Korhonen, T., Mcdermott,R. and Mcgrattan,K., Fire dynamics simulator FDS6 Users Manual, NIST Special publication 1019 (2007).

3. Gabour, L.A. and Lienhard, J.H., Wall Roughness effects on stagnation-point heat transfer beneath an impinging liquid jet, Journal of heat transfer Vol.116 (1994), pp.81-87.

4. Gaydon, A.G. and Wolfhard, H.G., Flames: their structure, radiation and temperature Fourth Edition, John Wiley and Sons ISBN 0412 15390 4 (1979).

5. Gordon, S. and Mcbride, B.J., (CEA) Computer program for calculation of complex chemical equilibrium compositions and applications I. analysis, NASA RP-1311 (1994), available from <http://www.grc.nasa.gov/www/Ceaweb/RP-1311.htm> (accessed on 04 August, 2014).

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