@inproceedings{oai:jaxa.repo.nii.ac.jp:00004928,
 author = {新城, 淳史 and 松山, 新吾 and 溝渕, 泰寛 and 小川, 哲 and 梅村, 章 and Shinjo, Junji and Matsuyama, Shingo and Mizobuchi, Yasuhiro and Ogawa, Satoru and Umemura, Akira},
 book = {宇宙航空研究開発機構特別資料: 第41回流体力学講演会/航空宇宙数値シミュレーション技術シンポジウム2009論文集, JAXA Special Publication: Proceedings fo 41st Fluid Dynamics Conference / Aerospace Numerical Simulation Symposium 2009},
 month = {Feb},
 note = {平成21年6月18-19日. 宇宙航空研究開発機構調布航空宇宙センター, 18 June-19 June, 2009, Japan Aerospace Exploration Agency, Large-scale numerical simulations of liquid fuel jet have been conducted to elucidate the physical mechanism of primary atomization near the injection nozzle. The grid resolution is made fine enough to resolve the smallest physical scale that is determined by the Weber number, i.e. surface tension effect. Such calculations have not been performed before, and this paper reports the world's first results on primary atomization in a turbulent spray. Physical processes are well captured such as surface instability development, ligament formation and droplet generation. While the aerodynamic force plays a role in developing surface instability, surface tension becomes more dominant in ligament and droplet formation. The droplet pinch-off is mostly dominated by the short-wave pinch-off mode, as the ligaments have tips. This is consistent with our previous research on droplet pinch-off from slow laminar liquid jets and provides insights into modeling. By these results, our understanding is made deeper on what is actually occurring inside a turbulent spray. The computational performance of JAXA's new supercomputer JSS is also described. Combined with the VisIMPACT parallelization method, this kind of large-scale computation can be easily implemented. With the reduction in I/O time, large unsteady simulations like this have been becoming possible., 形態: カラー図版あり, Physical characteristics: Original contains color illustrations, 資料番号: AA0064672030, レポート番号: JAXA-SP-09-011},
 publisher = {宇宙航空研究開発機構, Japan Aerospace Exploration Agency (JAXA)},
 title = {液体燃料微粒化初期過程の数値解析},
 volume = {JAXA-SP-09-011},
 year = {2010}
}