@techreport{oai:jaxa.repo.nii.ac.jp:00043296,
 author = {石黒, 登美子 and 小川, 哲 and 和田, 安弘 and Ishiguro, Tomiko and Ogawa, Satoru and Wada, Yasuhiro},
 month = {Dec},
 note = {A summary of our solver-code which is being developed for the purpose of analyzing chemically reacting compressible flows numerically is presented. The code solves the two or three-dimensional Reynolds time average complete Navier-Stokes equations including species transport equations, and has two strong points. The first point is that the system of governing equations for the flow computation contains a total mass conservation equation and transport equations of all species taking account of total mass conservation and impartial numerical treatment of every chemical species. Therefore, the correction of mass ratios of an species is made so that the summation of them equals to 1 after every time step integration. The second point is that the TVD difference scheme is used in order to capture strong discontinuous surfaces clearly and efficiently which are apt to appear in supersonic flow fields. Applying this solver, shock-induced chemically reacting flows and flow fields for the case of transverse sonic injection of H2 fuel into a supersonic airstream are analyzed numerically., 資料番号: NALSP0009005, レポート番号: NAL SP-9},
 title = {化学反応を含む圧縮流の数値計算},
 year = {1988}
}