第6章_田辺.PDF
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- きゅういち うづき
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1 ( ) ( ) ( )
2 Tube
3 . MGLAB
4 1.5 mm ( )
5 NS u u x u u u u = u + u ( ) ( u + u ) u u u u = u + u x x x + NS u ( ρ s ρ ) g a F R = αv 0 FR V
6 a a a k0 k /0
7 MGLAB - ( ) NS CPU khz NS
8 1 ga ARFAcoustic Radiation Force Model ( ) DNSDirect Numerical Simulation DNS FLUENT 900 Hz 2 mm 2000 K DNS s ( DNS) ( ARF) db
9 130 db 140 db 2.22 s DNS NS ARF 1 = x u x u λ π λ π ρ ρ 4 sin 2 max 2 u max SPL 0.54 ARF DNS CPU DNS 1/1000 ARF
10 IHI IHI () 1. Influence of Acoustic Field on Droplet Combustion in Microgravity, Tanabe, M., Aoki, K., Sato, K. and Fujimori, T., NASA/CP , Influence of Standing Sound Wave on Droplet Combustion, Tanabe, M., Morita, T., Aoki, K., Satoh, K., Fujimori, T. and Sato, J., Proceedings of the Combustion Institute, Vol. 28, p.1007, Combustion of Isolated droplet in Standing Sound Wave, Morita, T.,Tanabe, M., Aoki, K., 4th JSME-KSME Thermal Engineering Conference, Vol. 1, p Effects of Standing Sound Wave on Droplet Combustion, Morita, T., Aoki, K., Satoh, K., Fujimori, T. and Tanabe, M., Microgravity Science and Technology, XIV/2, p.29, 2003.
11 5. Evaluation of Combustion Enhancement by Standing Sound Wave Using Microgravity, Tanabe, M., Kono, M., Sato, K., Fujimori, T. and Aoki, K., Proceedings of The 23rd ISTS (Selected Papers), Vol. 2, p. 1662, ,,,,, B, , p. 126, Droplet Combusiton in Standing Sound Wave, Tanabe, M., Kuwahara, T., Satoh, K., Fujimori, T., Sato, J. and Kono, M., Proceedings of the Combustion Institute, Vol.30, No. 2, p. 1957, Analysis on thermo-acoustic streaming field by CFD simulation, Tachi, k., Kuwahara, T., Tanabe, M., Proceedings of The 24th ISTS (Selected Papers), p.787, ,,,,, Vol.22, No. 1, p. 42, 2005.
75 unit: mm Fig. Structure of model three-phase stacked transformer cores (a) Alternate-lap joint (b) Step-lap joint 3 4)
3 * 35 (3), 7 Analysis of Local Magnetic Properties and Acoustic Noise in Three-Phase Stacked Transformer Core Model Masayoshi Ishida Kenichi Sadahiro Seiji Okabe 3.7 T 5 Hz..4 3 Synopsis: Methods of local
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