@techreport{oai:jaxa.repo.nii.ac.jp:00043276,
 author = {嶋, 英志 and 吉田, 憲司 and 天野, 完一 and Shima, Eiji and Yoshida, Kenji and Amano, Kan-ichi},
 month = {Nov},
 note = {An automatic grid generator for multiple element airfoils was developed and the existing implicit TVD (Total Variation Diminishing) finite volume code was improved in both accuracy and efficiency, in order to make the Navier-Stokes solver a practical design tool for high lift devices. Utilizing these codes, Navier-Stokes analysis of the single slotted flap was carried out. The automatic grid generator utilizes the elliptic equation solver using the finite difference method combined with the panel method. The flow field is divided into subregions by the dividing stream lines which is calculated by the panel method and the computational grid in each subregion is generated by solving the elliptic equations (Thompson's method). Since the panel method can solve the potential flow around any number of arbitrary shaped bodies, this grid generator can generate a H-type computational grid around such bodies automatically. To obtain a high accuracy on a rapidly stretching grid, the flow solver uses the TVD formulation containing a explicit treatment of non-uniform grid spacing. Converging rate and numerical stability of the flow solver is augmented by the relaxation approach using Symmetric Point Gauss Seidel method in matrix inversion process which is necessary for an implicit scheme., 資料番号: NALSP0008023, レポート番号: NAL SP-8},
 title = {設計における数値解析の活用について(その5): 陰的TVD法の改良と応用計算},
 year = {1987}
}