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THREE-DIMENSIONAL SIMULATION OF FLOW AND DRIFTWOOD USING UNSTRUCTURED GRID : VALIDATION IN BLOCKING PROBABILITY BEING TRAPPED BY BRIDGE AND WEIR STRUCTURES

  • Published:2024 Issue:16 Volume:80 Page:n/a
  • ISSN:2436-6021
  • Container-title:Japanese Journal of JSCE
  • language:en
  • Short-container-title:Japanese Journal of JSCE

Author:

OTA Kazuyuki1,SATO Takahiro1

Affiliation:

1. 一般財団法人電力中央研究所

Publisher

Japan Society of Civil Engineers

Reference11 articles.

1. 1) 高﨑秀一,福元秀一郎,小路永浩美,日高暢彦,渡邊明英,廣岡篤,成瀬哲哉,高村聡,大原雅宏,若林善樹:水理模型実験に基づく小野川流木捕捉工の施設計画及び構造設計. 河川技術論文集, 27巻, pp. 679-684, 2021. [Takasaki, S, Fukumoto, S., Syoujinaga, H., Hidaka, N., Watanabe, A., Hirooka, A., Naruse, T., Takamura, S., Ohhara, M., and Wakabayashi, Y.: Facility plans and stuructural designs of the efficient driftwood capture work on the ono river based on hydraulic model experiments, Advances in River Engineering, Vol. 27, pp. 679-684, 2021.]

2. 2) 木村一郎:3D-3Dカップリングモデルを用いた橋脚による流木捕捉過程の再現性, 土木学会論文集 B1(水工学),75巻, 2号,pp. I_601-I_606,2019. [Kimura, I.: 3D computations on driftwood jamming around bridge piers, Annual Journal of Hydraulic Engineering, Vol. 75, Issue 2, pp. I_601-I_606,2019.]

3. 3) 長田健吾,清水義彦,松本礼央:河道内流木対策施設の設計を支援する3次元流木解析法の開発とその検証. 土木学会論文集 B1 (水工学), 77巻, 2号, pp. I_679-I_684, 2021. [Osada, K., Shimizu, Y., Matsumoto, Y., and Ettena, R.: Development of a 3D numerical model of woody debris for designing a debris retention facility in rivers, J. JSCE, Ser. B1 (Hydraulic Engineering), Vol. 77, Issue 2, pp. I_679-I_684, 2021.]

4. 4) 福田朝生,福岡捷二:凸型の鋼製フレームを持つ砂防堰堤による流木を含む高精度数値解析法を用いた土石流捕捉効果の検討. 土木学会論文集 B1 (水工学), 76巻, 2号, pp. I_1177-I_1182, 2020. [Fukuda, T. and Fukuoka, S: Investigation of the effect of trapping debris flow of open check dams with convex steel frames by using high-resolution simulations of debris flow including driftwood, J. JSCE, Ser. B1 (Hydraulic Engineering), Vol. 76, Issue 2, pp. I_1177-I_1182, 2020.]

5. 5) 太田一行,佐藤隆宏:橋梁とダム堰での流木捕捉に関する統一的検討. 土木学会論文集 B1 (水工学), 76巻, 2号, pp. I_895-I_900, 2020. [Ota, K. and Sato, T.: Integrated investigation into wood accumulation at bridge and a weir, J. JSCE, Ser. B1 (Hydraulic Engineering), Vol. 76, Issue 2, pp. I_895-I_900, 2020.]
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