Publications

Peer-reviewed Journals

1. Yezhan Li, Wei WANG, Tsubasa OKAZE, Naoki IKEGAYA: Extrapolating low-occurrence strong wind speeds at pedestrian levels using artificial neural networks trained by a single turbulent dataset, Sustainable Cities and Society, Volume 115, 2024, 105837 (https://doi.org/10.1016/j.scs.2024.105837)

2. Xinyi Li, Tsubasa Okaze: URANS simulation reproducing large-scale periodic fluctuations and their impact on pollutant dispersion around an isolated 1:1:2 building, Building and Environment, Volume 265, 2024, 111872 (https://doi.org/10.1016/j.buildenv.2024.111872)

3. Yezhan Li, Tsubasa Okaze: Application of polyhedral meshes in large-eddy simulation of building array flow fields within neutral and unstable boundary layers, Building and Environment, Volume 263, 2024, 111846 (https://doi.org/10.1016/j.buildenv.2024.111846)

4. Wei WANG, Takeru SEKIKAWA, Tsubasa OKAZE, Naoki IKEGAYA: Comparison of various statistical methods for estimating extreme wind speed at the pedestrian level in idealized and actual urban areas, Journal of Wind Engineering and Industrial Aerodynamics, Volume 250, 2024, 105778. (https://doi.org/10.1016/j.jweia.2024.105778)

5. Rongmao Li, Hideki Kikumoto, Hongyuan Jia, Xiang Wang, Tsubasa Okaze: Cross-sensor domain adaptation for data-driven correction of pedestrian level wind measurement in urban environments using cup anemometers, Sustainable Cities and Society, Volume 106, 2024, 105430. (https://doi.org/10.1016/j.scs.2024.105430)

6. Satoru YAMAGUCHI, Yoichi ITO, Takahiro TANABE, Koichi NISHIMURA, Satoru ADACHI, Sojiro SUNAKO, Yoshihiko SAITO, Tsubasa OKAZE, Hirofumi NIIYA, Kae TSUNEMATSU, Hiraku NISHIMORI: Co-creation with local governments and ski resorts to generate scientific information that contributes to ski resort avalanche safety management, Bulletin of Glaciological Research. (https://doi.org/10.5331/bgr.23R02)

7. Yasuhisa Maruyama, Ryuto Nakamura, Shota Tsuji, Yingli Xuan, Kunio Mizutani, Tsubasa Okaze, Natsue Yoshimura: Classification of pleasantness of wind by electroencephalography, PLoS ONE 19(2): e0299036. (https://doi.org/10.1371/journal.pone.0299036)

8. Yoshikawa, S., Nishijima, K., Okaze, T. and Takano, Y.: Feasibility of eolian sound for urban wind speed estimation. Jpn Archit Rev, 7, 2024, e12424. (https://doi.org/10.1002/2475-8876.12424)

9. Fuyu Wang, Xuanyi Zhou, Hideki Kikumoto, Tsubasa Okaze: Detector configuration optimization based on wind tunnel tests using normalized adjoint concentration gradient for urban spatial source parameters estimation, Building and Environment, 2023, 111094. (https://doi.org/10.1016/j.buildenv.2023.111094)

10. Wang W., Okaze T.: Statistical analysis for predicting low-occurrence strong wind speeds at the pedestrian level in an actual urban case, Build. Environ. 244 (2023) 110781. (https://doi.org/10.1016/j.buildenv.2023.110781)

11. T. Sanemitsu, N. Ikegaya, T. Okaze, J.J. Finnigan, Appropriate Momentum Provision for Numerical Simulations of Horizontally Homogeneous Urban Canopies Using Periodic Boundary Conditions, Boundary-Layer Meteorol. (2023) 1–38. (https://doi.org/10.1007/s10546-023-00823-z)

12. Rongmao Li, Hideki Kikumoto, Hongyuan Jia, Tsubasa Okaze: Transfer learning strategy for data-driven correction of wind measurement around buildings using cup anemometers, Building and Environment, 2023, 110499. (https://doi.org/10.1016/j.buildenv.2023.110499)

13. Wang W., Ikegaya N., Okaze T.: Comparing Weibull distribution method and Gram–Charlier series method within the context of estimating low-occurrence strong wind speed of idealized building cases, Journal of Wind Engineering and Industrial aerodynamics, 2023, Volume 236, 105401. (https://doi.org/10.1016/j.jweia.2023.105401)

14. Li Y., Wang W., Okaze T. Evaluation of polyhedral mesh performance for large-eddy simulations of flow around an isolated building within an unstable boundary layer, Building and Environment, 2023, Volume 235(1), 110207. (https://doi.org/10.1016/j.buildenv.2023.110207)

15. 南 健斗, 米澤 千夏, 大風 翼: 抗力項のみを考慮した0 方程式LES で定式化される植生キャノピーモデルの歩行者空間における風環境予測への適用性の検討, 風工学研究論文集, 2022, Vol.27, 19-27. (https://doi.org/10.14887/windengresearch.27.0_19)

16. Wei WANG, Taishi KAWAMINAMI, Koki SETA, Naoki IKEGAYA, Tsubasa OKAZE: ESTIMATION OF LOW-OCCURRENCE WIND SPEED AT THE PEDESTRIAN LEVEL AROUND AN ISOLATED BUILDING: COMPARISON OF WEIBULL DISTRIBUTION METHOD AND GRAM.CHARLIER SERIES METHOD, Wind Engineering Research, 2022, Vol.27, 28-37. (https://doi.org/10.14887/windengresearch.27.0_28)

17. Yezhan LI and Tsubasa OKAZE: Performance of polyhedral mesh in large-eddy simulation of flow and temperature fields within a cubic array in unstable boundary layer , Wind Engineering Research, 2022, Vol.27, 38-47. (https://doi.org/10.14887/windengresearch.27.0_38)

18. 川島 理沙, 大宮 哲, 新屋 啓文, 西村 浩一, 大風 翼: 地吹雪時の乱流変動に伴う飛雪流量増加に対する視程分布の変動についての検討, 風工学研究論文集, 2022, Vol.27, 48-57. (https://doi.org/10.14887/windengresearch.27.0_48)

19. Kikitsu H., Kikumoto H., Takadate Y., Okuda Y., Okaze T., Tominaga Y. Review of Wind Resistant Design for Tiled Roofs and Publication of New CFD Guidebook for Urban Wind Environment: Japan Country Report 2021. CONSTRUCTION, 2022, Vol.2(2),114-125. (https://doi.org/10.15282/construction.v2i2.7421)

20. Tsubasa Okaze, Chika Tada. Development and performance evaluation of a micro anaerobic digestion system for household use, Japan Architectural Review, 2022, Vol.5(4), 644-648. (https://doi.org/10.1002/2475-8876.12289).

21. Wei Wang, Tsubasa Okaze. Estimating low-occurrence wind speeds from mean velocity and turbulent kinetic energy: Development of statistical method and validation with idealized cases, Building and Environment, Volume 224, 109499, 2022. (https://doi.org/10.1016/j.buildenv.2022.109499)

22. 南健斗, 米澤千夏, 大風翼. ラージ・エディ・シミュレーションに基づく大崎耕土の居久根による農村住居周辺空間の風速低減効果の検討, システム農学, 38(2), 37-42, 2022.　(https://doi.org/10.14962/jass.38.2_37)

23. 大風 翼, 友清 衣利子, 菊本 英紀, 富永 禎秀, 玄 英麗, 水谷 国男, 中嶋 唯貴, 西嶋 一欽. 令和元年台風第15号で被災した住家等の住環境調査, 日本建築学会技術報告集, 28巻69 号, pp. 1083-1088, 2022. (https://doi.org/10.3130/aijt.28.1083)

24. 池田 侑樹, 川島 理沙, 大宮 哲, 新屋 啓文, 西村 浩一, 大風 翼. 発達した吹雪境界層における飛雪流量の最大瞬間値と平均値の関係, 雪氷, 84(3), pp. 213-227, 2022. (https://doi.org/10.5331/seppyo.84.3_213)

25. Wei Wang, Tsubasa Okaze. Statistical analysis of low-occurrence strong wind speeds at the pedestrian level around a simplified building based on the Weibull distribution, Building and Environment, Volume 209, 108644, 2022. (https://doi.org/10.1016/j.buildenv.2021.108644)

26. S. Tanji, M. Inatsu, T. Okaze, Development of a snowdrift model with the lattice Boltzmann method, Prog. Earth Planet. Sci. 8 (2021) 57. https://doi.org/10.1186/s40645-021-00449-0)

27. Tsubasa OKAZE, Hideki KIKUMOTO, Hiroki ONO, Masashi IMANO, Naoki IKEGAYA, Takamasa HASAMA, Keisuke NAKAO, Takeshi KISHIDA, Yuichi TABATA, Keigo NAKAJIMA, Ryuichiro YOSHIE, Yoshihide TOMINAGA: Large-eddy simulation of flow around an isolated building: A step-by-step analysis of influencing factors on turbulent statistics, Building and Environment, 108021, 2021. (https://doi.org/10.1016/j.buildenv.2021.108021)

28. 増澤諭香, 大宮 哲, 大風 翼, 新屋啓文: 降雪を伴う吹雪の鉛直構造の解明, 雪氷, vol. 83(3), pp.259-273, 2021. (https://doi.org/10.5331/seppyo.83.3_259)

29. Wei Wang, Yong Cao, Tsubasa Okaze, Comparison of hexahedral, tetrahedral and polyhedral cells for reproducing the wind field around an isolated building by LES, Building and Environment, Vol. 195, 107717, 2021. (https://doi.org/10.1016/j.buildenv.2021.107717)

30. 池田 侑樹, 大宮 哲, 新屋 啓文, 大風 翼. WRFによる谷地形の影響によって発生する強風の解析-北海道弟子屈町の強風事例-, 風工学研究論文集, Vol. 26, pp. 1-8, 2020. (https://doi.org/10.14887/windengresearch.26.0_1)

31. 平野 征将, 菊本 英紀, 大風 翼: 小型サーミスタ風速計による風洞実験での歩行者空間の瞬間風速評価, 風工学研究論文集, Vol. 26, pp. 139-147, 2020. (https://doi.org/10.14887/windengresearch.26.0_139)

32. Wei Wang, Yong Cao, Tsubasa Okaze. Large-eddy simulations of flow field around an isolated building with polyhedral cells: Does boundary layer mesh on building walls always improve numerical accuracy of wind environment?, Wind Engineering Research, Vol. 26, pp. 157-166, 2020. (https://doi.org/10.14887/windengresearch.26.0_157)

33. X. Zhou, T. Okaze, C. Ren, M. Cai, Y. Ishida, A. Mochida, Mapping local climate zones for a Japanese large city by an extended workflow of WUDAPT Level 0 method, Urban Clim. 33 (2020) 100660. https://doi.org/10.1016/j.uclim.2020.100660.

34. N. Ikegaya, T. Kawaminami, T. Okaze, A. Hagishima, Evaluation of exceeding wind speed at a pedestrian level around a 1:1:2 isolated block model, J. Wind Eng. Ind. Aerodyn. 201, 104193, 2020. (https://doi.org/10.1016/j.jweia.2020.104193)

35. Xilin Zhou, Tsubasa Okaze, Chao Ren, Meng Cai, Yasuyuki Ishida, Hironori Watanabe, Akashi Mochida: Evaluation of urban heat islands using local climate zones and the influence of sea-land breeze, Sustainable Cities and Society, Vol. 55, 102060, 2020. (https://doi.org/10.1016/j.scs.2020.102060)

36. 大風 翼, 菊本英紀, 小野浩己, 今野 雅, 池谷直樹,  挾間貴雅, 中尾圭佑, 岸田岳士, 田畑侑一, 中島慶悟, 義江龍一郎, 富永禎秀: LES による 1:1:2 単体建物周辺流れのベンチマークテスト : 各種計算条件が計算結果に及ぼす影響, 日本建築学会技術報告集, Vol.26, No.62, pp.179-184, 2020. (https://doi.org/10.3130/aijt.26.179)

37. 小川 夕季, 出口 清孝, 川久保 俊, 大風 翼: 白川村の地形モデルを用いたCFD解析と合掌造り民家の温熱環境実測, 日本建築学会環境系論文集, Vol.84, No. 763, pp. 865-872, 2019. (https://doi.org/10.3130/aije.84.865)

38. N. Ikegaya, T. Okaze, H. Kikumoto, M. Imano, H. Ono, Y. Tominaga: Effect of the numerical viscosity on reproduction of mean and turbulent flow fields in the case of a 1:1:2 single block model, Journal of Wind Engineering and Industrial Aerodynamics, Vol. 191, pp.279-296, 2019. (https://doi.org/10.1016/j.jweia.2019.06.013)

39. 南健斗, 大風 翼, 川島範久, 安田幸一: 男木島の路地空間を対象としたスマートフォン簡易風速計による風環境評価, 日本建築学会技術報告集, Vol.25, No.60, pp.771-775, 2019. (https://doi.org/10.3130/aijt.25.765)

40. 堺由輝, 川島範久, 大風翼, 安田幸一: 植生浄化法と暮らしの工夫による生活排水対策の離島における適用可能性の検討, −瀬戸内・男木島を対象として−, Vol.25, No.60,  pp.747-752, 2019. (https://doi.org/10.3130/aijt.25.747)

41. Miguel Yamamoto, Masataka Kasai, Tsubasa Okaze, Kazumasa Hanaoka, Akashi Mochida. Analysis of climatic factors leading to future summer heatstroke risk changes in Tokyo and Sendai based on dynamical downscaling of pseudo global warming data using WRF, Journal of Wind Engineering and Industrial Aerodynamics, Vol. 183, pp. 187-197, 2018.  (https://doi.org/10.1016/j.jweia.2018.10.001)

42. Tsubasa Okaze, Hirofumi Niiya, Kouichi Nishimura. Development of a large-eddy simulation coupled with Lagrangian snow transport model, Journal of Wind Engineering and Industrial Aerodynamics, Elsevier Ltd, Vol. 183, No. June, pp. 35-43, 2018.  (https://doi.org/10.1016/j.jweia.2018.09.027)

43. Yasuyuki Ishida, Tsubasa Okaze, Akashi Mochida. Influence of urban configuration on the structure of kinetic energy transport and the energy dissipation rate, Journal of Wind Engineering and Industrial Aerodynamics, Elsevier, Vol. 183, pp. 198-213, 2018. (https://doi.org/10.1016/j.jweia.2018.10.016)

44. Yoshihide Tominaga, Tsubasa Okaze, Akashi Mochida. Wind tunnel experiment and CFD analysis of sand erosion/deposition due to wind around an obstacle, Journal of Wind Engineering and Industrial Aerodynamics, Vol. 182, pp. 262-271, 2018. (https://doi.org/10.1016/j.jweia.2018.09.008)

45. 大風翼, 持田灯: LESによる市街地風環境予測のためのデジタルフィルタを用いた人工的な流入変動風の生成, 風工学シンポジウム論文集, Vol.25, pp.221-224, 2018.

46. 河西昌隆, 大風翼, 石田泰之, 山本ミゲイル, 持田灯: WRFとLESを結合したメソ・ミクロ気象一貫解析手法の開発と実街区における温熱環境の将来予測, 風工学シンポジウム論文集, Vol.25, pp.223-226, 2018.

47. T.Okaze and A.Mochida: Cholesky decomposition–based generation of artificial inflow turbulence including scalar fluctuation, Computers & Fluids, 159, pp. 23-32, 2017.(http://doi.org/10.1016/j.compfluid.2017.09.005)

48. Kasai M., Okaze T., Mochida A., Hanaoka, K.: Heatstroke Risk Predictions for Current and Near-Future Summers in Sendai, Japan, Based on Mesoscale WRF Simulations. Sustainability 9, 1467, 2017. (http://doi.org/10.3390/su9081467)

49. Tsubasa Okaze, Akashi Mochida: Large-Eddy Simulation of Non-Isothermal Flow around a Building Using Artificially Generated Inflow Turbulent Fluctuations of Wind Velocity and Air Temperature, Journal of Heat Island Institute International, Vol. 12, No. 2, pp. 29-34, 2017. (http://www.heat-island.jp/web_journal/JGM8SpecialIssue/7-5_okaze.pdf)

50. Masataka Kasai, Tsubasa Okaze, Miguel Yamamoto, Akashi Mochida, Kazumasa Hanaoka: Summer Heatstroke Risk Prediction for Tokyo in the 2030s Based on Mesoscale Simulations by WRF, Journal of Heat Island Institute International, Vol. 12, No. 2, pp. 61-67, 2017. (http://www.heat-island.jp/web_journal/JGM8SpecialIssue/P-8_kasai.pdf)

51. 渡部 朱生, 阿藤 裕昭, 大風 翼, 持田 灯:  RANS解析のための都市Canopy モデルの付加項FkのLESデータによる推定法, 第24回 風工学シンポジウム, 風工学シンポジウム論文集, Vol. 24, pp. 73-78, 2016. (http://doi.org/10.14887/kazekosymp.24.0_73)

52. 富永禎秀, 大風翼, 持田灯: 単体切妻屋根建物を対象とした屋根上積雪深の予測手法の検証-CFD に基づく風による屋根雪偏分布の予測-, 日本建築学会構造系論文集,  Vol.81, No.725, pp. 1051-1059, 2016.（http://doi.org/10.3130/aijs.81.1051）

53. 富永禎秀, 大風翼, 菊本英紀, 白澤多一, 義江龍一郎, 持田灯: RANSモデルにおける各種の計算条件の違いが濃度分布の予測精度に及ぼす影響, 日本建築学会技術報告集, vol.22, issue 51, pp.609-614, 2016.(http://dx.doi.org/10.3130/aijt.22.609)

54. 渡部朱生, 大風翼, 高野芳央, 今野雅, 持田, 灯, 小林宏康: CFDを用いた仙台平野沿岸部の防潮林が農地の飛砂発生頻度に及ぼす影響の検討, システム農学, Vol.32 No.1, pp.11-18, 2016. (http://doi.org/10.14962/jass.32.1_11)

55. Okaze T., Takano Y., Mochida A., Tominaga Y.: Development of a new k-ε model to reproduce the aerodynamic effects of snow particles on a flow field, Journal of Wind Engineering and Industrial Aerodynamics, vol.144, pp 118-124, 2015.09. (http://dx.doi.org/10.1016/j.jweia.2015.04.016)

56. Okaze T., Ono A., Mochida A., Kannuki Y., Watanabe S.: Evaluation of turbulent length scale within urban canopy layer based on LES data, Journal of Wind Engineering and Industrial Aerodynamics, vol.144, pp 79-83, 2015.09. (http://dx.doi.org/10.1016/j.jweia.2014.11.016)

57. Yuan Li, Tsubasa Okaze, Akashi Mochida: Prediction of the impacts of urbanization using a new assessment system combining urban expansion model and WRF –case study for Guangzhou in China-, Journal of Heat Island Institute International, Vol.9-2 , pp133-137,  2014. 12.(http://www.heat-island.jp/web_journal/Special_Issue_7JGM/contents.htm)

58. 大風翼, 弓野沙織, 持田灯, 環貫陽: 温度変動を考慮した不安定境界層中の人工的な流入変動風の生成, 風工学シンポジウム論文集, vol.23, pp 55-60, 2014.12.

59. 大風翼, 持田灯: スカラー変動を考慮したLES のための流入変動風の生成 その1, 乱流フラックスのコレスキー分解によるスカラー変動を含む変動風生成法の開発, 日本建築学会環境系論文集, 第79巻 第703号, pp 771-776, 2014 09.(http://dx.doi.org/10.3130/aije.79.771) 日本風工学会研究奨励賞

60. 地球環境委員会都市と気候適応小委員会GCMを活用した 近未来標準気象データ作成ワーキンググループ: GCMの力学的ダウンスケーリングによる近未来標準気象データの試作, 日本建築学会技術報告集, Vol. 20,  No. 46, pp. 1041-1046, 2014.10. (http://dx.doi.org/10.3130/aijt.20.1041)

61. Yoshihide Tominaga, Tsubasa Okaze, Akashi Mochida, Yasutomo Sasaki, Masaki Nemoto, Takeshi Sato: PIV Measurements of Saltating Snow Particle Velocity in a Boundary Layer developed in a Wind Tunnel, Journal of Visualization, Vol. 16, Issue 2 , pp 95-98, 2013 05. (http://dx.doi.org/10.1007/s12650-012-0156-8)

62. 大風翼,   富永禎秀, 持田灯:  2つの飛雪空間密度の輸送方程式に基づく新たな飛雪モデルの開発, 日本建築学会環境系論文集, 第78巻, 第684号, pp149-156, 2013年2月. (https://www.jstage.jst.go.jp/article/aije/78/684/78_149/_pdf) 日本建築学会奨励賞

63. 大風翼,   高野芳央, 持田灯, 富永禎秀:  飛雪現象の数値予測のための雪粒子の影響を表現するサブモデルの開発, 風工学シンポジウム論文集, Vol.22, pp67-72, 2012.(https://www.jstage.jst.go.jp/article/kazekosymp/22/0/22_67/_pdf) 第22回 風工学シンポジウム 論文賞

64. Tsubasa Okaze, Akashi Mochida, Yoshihide Tominaga, Masaki Nemoto, Takeshi Sato, Yasutomo Sasaki, Kazusato Ichinohe: Wind tunnel investigation of drifting snow development in a boundary layer, Journal of Wind Engineering and Industrial Aerodynamics, Vol.104–106, pp532–539, 2012.5-7.(http://dx.doi.org/10.1016/j.jweia.2012.04.002)

65. Yoshihide Tominaga, Tsubasa Okaze, Akashi Mochida: CFD modeling of snowdrift around a building: An overview of models and evaluation of a new approach, Building and Environment, Vol.46, pp899-910, 2011.4. (http://dx.doi.org/10.1016/j.buildenv.2010.10.020)

66. Yoshihide Tominaga, Akashi Mochida, Tsubasa Okaze, Takeshi Sato, Masaki Nemoto, Hiroki Motoyoshi, Sento Nakai, Takahiko Uematsu, Masaya Otsuki: Development of a system for predicting snow distribution in built-up environments: Combining a meso scale meteorological model and a CFD model, Journal of Wind Engineering and Industrial Aerodynamics, Vol.99 No.4, pp460-468, 2011.4. (http://dx.doi.org/10.1016/j.jweia.2010.12.004) 平成23年度「日本風工学会 ベストペーパー賞」

67. 大風翼, 持田灯, 富永禎秀, 伊藤優, 吉野博: 2つの飛雪空間密度の輸送方程式を用いた飛雪モデルによる吹きだまり形成過程の分析, 風工学シンポジウム論文集 Vol.21, pp101-106, 2010.12. (https://www.jstage.jst.go.jp/article/kazekosymp/21/0/21_0_101/_pdf)

68. 伊藤優, 大風翼, 持田灯, 富永禎秀, 吉野博, 佐々木康友: CFDを用いた吹雪モデルと雪面熱収支解析に基づく融雪モデルの連成による都市・建築空間の積雪分布予測手法の開発, 日本雪工学会誌, Vol.26, No.4, pp245-254, 2010.10. (http://ci.nii.ac.jp/naid/10027715933)

69. 富永禎秀, 持田灯, 大風翼, 佐藤威, 根本征樹, 本吉弘岐, 中井専人, 堤拓哉, 吉野 博:メソ気象モデルとCFDを接続した都市・建築空間の降積雪シミュレーションシステムの開発, 日本雪工学会誌, Vol.26 No.4, pp235-244, 2010.10. (http://ci.nii.ac.jp/naid/10027715902)

70. 富永禎秀, 大風翼, 持田灯, 志田貴之, 吉野博: 雪面の侵食・堆積のモデル化に関する基礎的検討―CFDによる建物周辺の飛雪現象の数値予測, 日本建築学会環境系論文集, 第74巻, 第643号, pp1083-1089, 2009.9. (https://www.jstage.jst.go.jp/article/aije/74/643/74_643_1083/_pdf)

71. 伊藤優, 大風翼, 持田灯, 富永禎秀, 根本征樹, 吉野博, 佐藤威: 発達過程の吹雪境界層における飛雪流量の空間分布に関する風洞実験, 第20回風工学シンポジウム論文集, pp67-72, 日本風工学会, 2008.12. (https://www.jstage.jst.go.jp/article/kazekosymp/20/0/20_0_12/_pdf)

72. 大風翼, 持田灯, 富永禎秀, 吉野博, 伊藤優: 雪粒子の流れ場への影響を組み込んだ新たな飛雪モデルの提案,風工学シンポジウム論文集, Vol.20, p.p.73-78, 2008.12. (https://www.jstage.jst.go.jp/article/kazekosymp/20/0/20_0_13/_pdf)

73. 富永禎秀, 志田貴之, 持田灯, 吉野博, 大風翼: 砂面上に置かれた物体周りの侵食･堆積に関する風洞実験及びCFD解析,風工学シンポジウム論文集, Vol.19, pp109-114, 2006.11. (https://www.jstage.jst.go.jp/article/kazekosymp/19/0/19_0_109/_pdf)

Proceedings of International Conference

1. Seika Tanji, Masaru Inatsu, Tsubasa Okaze: Development of a snowdrift model with the lattice Boltzmann method and comparison with the observation results, Abstract of EGU (European Geoscience Union 2023), EGU23-10411 (https://doi.org/10.5194/egusphere-egu23-10411)

2. Tsubasa OKAZE, Hideki KIKUMOTO, Hiroki ONO, Naoki IKEGAYA, Keisuke NAKAO, Takeshi KISHIDA, Masashi IMANO, Takamasa HASAMA, Yuichi TABATA, Keigo NAKAJIMA, Yoshihide TOMINAGA: Framework of AIJ guidelines of pedestrian wind environment for practical applications of large-eddy simulations, Proceedings of the 15th International Conference on Wind Engineering, 2019

3. Hideki Kikumoto, Tsubasa Okaze, Naoki Ikegaya, Yoshihide Tominaga: Investigating statistics of peak wind speed around an isolated building model via largeeddy simulation, Proceedings of the 15th International Conference on Wind Engineering, 2019

4. Xinyi Li, Tsubasa Okaze: Unsteady RANS simulation and large-eddy simulation around an isolated building: Effects of unsteady fluctuation of separation shear layer on near-field dispersion, Proceedings of the 15th International Conference on Wind Engineering, 2019

5. Okaze T., Li X., Mochida, A.: Numerical simulation of non-isothermal flow and dispersion fields: An LES study with artificially generated inflow turbulence, Proceedings of the International Workshop on Wind Effects on Buildings and Urban Environment, 2019

6. Li X., Okaze T.:  Unsteady RANS simulation and large-eddy simulation around an isolated building: The effects of separation shear layer on the instantaneous concentration dispersion field, Proceedings of the International Workshop on Wind Effects on Buildings and Urban Environment, 2019

7. Ishida Y., Okaze T., Mochida A.: LES analysis of energy dissipation rate and airflow rate within urban districts, Proceedings of the International Workshop on Wind Effects on Buildings and Urban Environment, 2019

8. X. Zhou, T. Okaze, C. Ren, M. Cai, M. Kasai, Y. Ishida, A. Mochida. Mapping Local Climate Zones for Japanese Ordinance-Designated Cities Based on Urban Morphology Detection: A Case Study of Sendai, The proceedings of 10th International Conference on Urban Climate, Aug. 2018.

9. H Kikumoto, S. Iizuka, M. Hara, Y. Kawamoto, A. Mochida, R. Ooka, T. Okaze, Y. Xuan. Urban Climate Projections in the 2030s/50s for Major Cities of Japan Using Downscaling Techniques, The proceedings of 10th International Conference on Urban Climate, Aug. 2018.

10. T. Okaze, M. Kasai, A. Mochida. Prediction of Pedestrian Heatstroke Risk Based on Dynamical Downscaling Connected from Meso-Scale Meteorological Simulation to Micro-Scale Coupling Analysis of Non-Isothermal Large Eddy Simulation and Heat Balance Calculation, The proceedings of 10th International Conference on Urban Climate, Aug. 2018.

11. Tsubasa Okaze, Hideki Kikumoto, Yoshihide Tominaga. Toward AIJ Guidelines of Pedestrian Wind Environment around Buildings for Practical Applications of Large-Eddy Simulation: Introduction of Benchmark Cases and Sensitivity of Inflow Turbulence, The proceedings of 7th International Conference on Computational Wind Enginnering, Jun. 2018.

12. Keisuke Nakao, Tsubasa Okaze, Hideki Kikumoto, Yoshihide Tominaga. Prediction Performance of LargeEddy Simulations for the Mean Pressure Coefficient on an Isolated Building Surface, The proceedings of 7th International Conference on Computational Wind Enginnering, Jun. 2018.

13. Takeshi Kishida, Yuichi Tabata, Tsubasa Okaze, Koichi Miyashita, Ryuichiro Yoshie. Large-Eddy Simulations of Pedestrian Wind Environment Within Simplified and Complex Urban Geometries, The proceedings of 7th International Conference on Computational Wind Enginnering, Jun. 2018.

14. Naoki Ikegaya, Tsubasa Okaze, Hideki Kikumoto, Masashi Imano, Yoshihide Tominaga. Effect of Advection Scheme for Large-Eddy Simulation on Turbulent Flow Fields around an Isolated Block Model, The proceedings of 7th International Conference on Computational Wind Enginnering, Jun. 2018.

15. Hiroki Ono, Takeshi Kishida, Tsubasa Okaze, Hideki Kikumoto, Masashi Imano, Yoshihide Tominaga. Grid Dependency with Various Grid Systems on Large-Eddy Simulations of Flow around an Isolated Building Model, The proceedings of 7th International Conference on Computational Wind Enginnering, Jun. 2018.

16. Hideki Kikumoto, Tsubasa Okaze, Yoshihide Tominaga. Statistical Uncertainty in Results of Large-Eddy Simulation of Flow around an Isolated Building Model, The proceedings of 7th International Conference on Computational Wind Enginnering, Jun. 2018.

17. Yasuyuki Ishida, Issei Takada, Akashi Mochida, Tsubasa Okaze. LES on the Relationship Between Geometric Parameters of Buildings and Pedestrian-Level Wind Velocity in the Built-Up Areas, The proceedings of 7th International Conference on Computational Wind Enginnering, Jun. 2018.

18. Yasuyuki Ishida, Tsubasa Okaze, Akashi Mochida. Analysis of the structure of kinetic energy transport and dissipation due to the effect of urban roughness, The proceedings of International Workshop on Wind-Related Disasters and Mitigation, Mar. 2018.

19. Tsubasa Okaze, Hirofumi Niiya, Kouichi Nishimura. Development of a large-eddy simulation coupled Lagrangian snow transport model, The proceedings of International Workshop on Wind-Related Disasters and Mitigation, Mar. 2018.

20. Y Tominaga, T Okaze, A Mochida. Wind tunnel experiment and CFD analysis of sand erosion / deposition due to wind around an obstacle, The proceedings of International Workshop on Wind-Related Disasters and Mitigation, Mar. 2018.

21. Shu Watanabe, Tsubasa Okaze, Yoshiteru Takano, Masashi Imano, Akashi Mochida, Hiroyasu Kobayashi. CFD Prediction of Effects of Windbreak Forests on Occurrence Frequency of Wind-Blown Sand in Coastal Agricultural Area of Sendai Plain, The proceedings of International Workshop on Wind-Related Disasters and Mitigation, pp. 0-8, Mar. 2018.

22. Miguel Yamamoto, Masataka Kasai, Tsubasa Okaze, Akashi MOCHIDA, Kazumasa Hanaoka. Prediction of heatstroke risk for Tokyo and Sendai during summer in the 2050s by dynamical downscaling of pseudo global warming data using WRF, The proceedings of International Workshop on Wind-Related Disasters and Mitigation, Mar. 2018.

23. T Okaze, H Kikumoto, H Ono, M Imano, N Ikegaya, T Hasama, K NAKAO, T Kishida, Y Tabata, R Yoshie, Y Tominaga. Large-Eddy Simulation of Flow around Buildings: Validation and Sensitivity Analysis, The proceedings of 9th Asia-Pasific Conference on Wind Engineering, University of Auckland, Dec. 2017.

24. Tsubasa OKAZE, Hideki KIKUMOTO, Hiroki ONO, Masashi IMANO, Takamasa HASAMA, Takeshi KISHIDA, Keisuke NAKAO, Naoki IKEGAYA, Yuichi TABATA, Yoshihide TOMINAGA. Large-eddy simulations of flow around a high-rise building: Validation and sensitivity analysis on turbulent stactistics, The 7th European and African Conference on Wind Engineering, The proceedings of 7th European and African Conference on Wind Engineering, Jul. 2017.

25. Tsubasa Okaze, Akashi Mochida. LES of Non-Isothermal Flow around a Building using Artificially Generated Inflow Turbulent Fluctuations of Wind Velocity and Air Temperature, 8th Japanese-German Meeting on Urban Climatology, pp. 317-322, Mar. 2017.

26. Masataka Kasai, Tsubasa Okaze, Miguel Yamamoto, Akashi Mochida, Kazumasa Hanaoka. Heatstroke Risk Prediction for Tokyo during Summer in the 2030s Based on Mesoscale Simulations by WRF, 8th Japanese-German Meeting on Urban Climatology, pp. 149-154, Mar. 2017.

27. Masataka Kasai, Satoshi Shoji, Tsubasa Okaze, Kazumasa Hanaoka, Akashi Mochida. PREDICTION OF HEATSTROKE RISK IN SENDAI IN SUMMER OF 2030s BASED ON MESOSCALE SIMULATION BY WRF, The Fifth International Conference on Human-Environment System, Oct. 2016.

28. Tsubasa Okaze, Yoshihide Tominaga, Akashi Mochida: CFD prediction of snowdrift in a building array, 8th International Conference on Snow Engineering, Proceedings of 8th International Conference on Snow Engineering, pp. 26-29,  2016.

29. Yoshihide Tominaga, Tsubasa Okaze, Akashi Mochida: CFD simulation of drift snow loads for an isolated gable-roof building, Proceedings of 8th International Conference on Snow Engineering, pp. 208-214, 2016.

30. Okaze T., Mochida A.: Generation of artificial inflow turbulence including scalar fluctuation for LES based on Cholesky decomposition, The proceedings of 9th international conference on urban climate, Toulouse, France, July 20-24, 2015.

31. Yuan Li, Tsubasa Okaze, Akashi Mochida: Prediction of the impacts of urbanization using a new assessment system combining urban expansion model and WRF -Case study for Guangzhou in China-, The proceedings of 7th Japanese-German Meeting in Urban Climatology, Hannover, Germany, October 6-8, 2014.

32. Okaze T., Mochida A., Ono A., Kannuki Y.: Evaluation of turbulent length-scale within urban canopy layer based on LES data, The proceedings of 6th International Symposium on Computational Wind Engineering, Hamburg, Germany, June 9-12, 2014.

33. Okaze T., Takano Y., Mochida A., Tominaga Y.: Development of a new k-ε model for reproducing aerodynamic effects of snow particles on flowfield, The proceedings of 6th International Symposium on Computational Wind Engineering, Hamburg, Germany, June 9-12, 2014.

34. Yoshie R., Okaze T., Tominaga Y., Shirasawa T., Mochida A.: AIJ cooperative project for practical application of CFD to pollutant/thermal dispersion in urban areas (Part 1) Introduction of benchmark tests, The proceedings of 6th International Symposium on Computational Wind Engineering, Hamburg, Germany, June 9-12, 2014. 

35. Shirasawa T., Yoshie R., Tominaga Y., Okaze T., Jiang G., Imano M., Kishida T., Mochida A.: AIJ cooperative project for practical application of CFD to pollutant/thermal dispersion in urban areas (Part 2) Pollutant/thermal dispersion behind single building case, The proceedings of 6th International Symposium on Computational Wind Engineering, Hamburg, Germany, June 9-12, 2014. 

36. Yoshie R., Okaze T., Tominaga Y., Shirasawa T., Imano M., Mochida A.:  AIJ cooperative project for practical application of CFD to pollutant/thermal dispersion in urban areas (Part 3) Pollutant/thermal dispersion in simple street canyon models, The proceedings of 6th International Symposium on Computational Wind Engineering, Hamburg, Germany, June 9-12, 2014.

37. Tominaga Y., Yoshie R., Okaze T., Shirasawa T., Mochida A.:AIJ cooperative project for practical application of CFD to pollutant/thermal dispersion in urban areas (Part 4): flow and dispersion fields around building complex in actual urban area, The proceedings of 6th International Symposium on Computational Wind Engineering, Hamburg, Germany, June 9-12, 2014.

38. Yumino S., Okaze T., Mochida A: Prediction of microclimate around buildings based on CFD and heat balance analysis using WRF results as boundary conditions to include topographic influences, The proceedings of 6th International Symposium on Computational Wind Engineering, Hamburg, Germany, June 9-12, 2014. 

39. Tsubasa OKAZE, Yoshihide TOMINAGA, Akashi MOCHIDA: Prediction of snow distribution in built-up environments: combining mesoscale meteorological model and a CFD model, The proceedings of the 1st International Conference on Computational Engineering and Science for Safety and Environmental Problem (COMSAFE2014), Sendai, Japan, April 13-16, 2014.

40. Tsubasa Okaze, Yasuyuki Ishida, Taichi Shirasawa, Akashi Mochida: Analysis of kinetic energy balance in urban area based on LES data,  Proceedings of the 8th International Conference on Urban Climates, Dublin, Ireland, August 6-10, 2012.

41. Akashi Mochida, Tsubasa Okaze, Yu Ito, Yasutomo Sasaki, Yoshihide Tominaga: Prediction of snow depth around buildings based on snowdrift and snowmelt models, Proceedings of the 8th International Conference on Urban Climates, Dublin, Ireland, August 6-10, 2012.

42. Tsubasa Okaze, Akashi Mochida, Yoshihide Tominaga, Yoshiteru Takano: Numerical modeling of snow particles on turbulent flowfield based on canopy model, Proceedings of the 7th International Conference on Snow Engineering, Fukui, Japan, June 6-8, 2012.

43. Yoshihide Tominaga, Tsubasa Okaze, Akashi Mochida, Masaki Nemoto, Takeshi Sato, Yasutomo Sasaki: PIV measurements of snow particle velocity in a boundary layer developed in a wind tunnel,  Proceedings of the 7th International Conference on Snow Engineering, Fukui, Japan, June 6-8, 2012.

44. Yoshihide Tominaga, Tsubasa Okaze, Akashi Mochida, Masaki Nemoto, Takeshi Sato, Takuya Tsutsumi, Yasutomo Sasaki: Seasonal change of snow distribution around a building: comparison between numerical simulation and filed measurements, Proceedings of the 7th International Conference on Snow Engineering, Fukui, Japan, June 6-8, 2012.

45. Yu Ito, Akashi Mochida, Tsubasa Okaze, Yasutomo Sasaki, Yoshihide Tominaga: Development of a prediction method for snow-depth distribution in urban areas based on the coupling of snowdrift and snowmelt models, Proceedings of the 7th International Conference on Snow Engineering, Fukui, Japan, June 6-8, 2012.

46. Tsubasa OKAZE, Akashi MOCHIDA, Yoshihide TOMINAGA, Masaki NEMOTO, Takeshi SATO, Yasutomo SASAKI, Kazusato ICHINOHE: Wind tunnel investigation of drifting snow development in a boundary layer, Proceedings of the 13th International Conference on Wind Engineering (ICWE13), Amsterdam, Netherland, July 10-15, 2011.7.

47. Yoshihide Tominaga, Akashi Mochida, Tsubasa Okaze, Takeshi Sato, Masaki Nemoto, Hiroki Motoyoshi, Sento Nakai, Takahiko Uematsu, Masaya Otsuki: Development of prediction system for snow cover in built-up environment, Proceedings of the 7th International Symposium of Asia Institute of Urban Environment (Sendai, Japan), 2010 11.

48. Tsubasa Okaze, Akashi Mochida, Yoshihide Tominaga, Yu Ito, Hiroshi Yoshino: CFD prediction of snowdrift around a cube using two transport equations for drifting snow density, Proceedings of the Fifth International Symposium on Computational Wind Engineering (CWE2010) in Chapel Hill, North Carolina, USA, May 23-27, 2010.5.

49. Yoshihide Tominaga, Akashi Mochida, Tsubasa Okaze, Takahiko Uematsu, Masaya Otsuki, Masaki Nemoto, Takeshi Sato: Development of system for predicting snow distribution in built-up environment to determine measures for mitigating snow disaster, Proceedings of the Fifth International Symposium on Computational Wind Engineering (CWE2010) in Chapel Hill, North Carolina, USA, May 23-27, 2010.5

50. Yoshihide TOMINAGA, Tsubasa Okaze, Akashi Mochida, Masaki Nemoto, Yu Ito: PREDICTION OF SNOWDRIFT AROUND A CUBE USING CFD MODEL INCORPORATING ETTECT OF SNOW PARTICLES ON TURBULENT FLOW, Proceedings of the Seventh Asia-Pacific Conference on Wind Engineering, 2009 11

51. T. Okaze, Y. Tominaga, A. Mochida, Y. Ito, M. Nemoto, H. Yoshino, T. Sato: Numerical modeling of drifting snow around buildings, Proceedings of the International Symposium Turbulence, Heat and Mass Transfer 6, 2009 9

52. Yoshihide Tominaga, Tsubasa Okaze, Akashi Mochida, Hiroshi Yoshino, Yu Ito: APPLICABILITY OF CFD PREDICTION TO THREE-DIMENSIONAL SNOWDRIFT AROUND A CUBIC BUILDING MODEL, Proceedings of the seventh International Conference on Urban Climate, B13-4, 2009 7 

53. Tsubasa Okaze, Akashi Mochida, Yoshihide Tominaga, Masaki Nemoto, Yu Ito, Takayuki Shida, Takeshi Sato, Hiroshi Yoshino: MODELING OF DRIFTING SNOW DEVELOPMENT IN A BOUNDARY LAYER AND ITS EFFECTS ON WIND FIELD, Proceedings of the International Symposium Snow Engineering VI, 2008 6

54. Yoshihide Tominaga, Tsubasa Okaze, Akashi Mochida, Takayuki Shida, Hiroshi Yoshino: CFD PREDICTION OF SNOWDRIFT AROUND A CUBIC BUILDING MODEL, Proceedings of the International Symposium Snow Engineering VI, 2008 6

55. Yoshihide TOMINAGA, Akashi MOCHIDA, Hiroshi YOSHINO, Takayuki SHIDA, Tsubasa OKAZE: CFD Prediction of Snowdrift around a Cubic Building Model, Proceedings of the Fourth International Symposium on Computational Wind Engineering, pp941-944, 2006 7

Commentaries and Reviews in Academic Journals, etc.

学術雑誌等における解説、総説等 

1. 山本佳嗣, 森上伸也, 大風翼, 丸山裕恒, 吉村奈津江. 自然換気・通風の快適性に関する最新研究, 空気調和衛生工学, 96(5), pp.365-372, 2022.

2. 大風 翼, 富永 禎秀, 持田 灯: 市街地環境の予測 ・ 分析に果たしてきた RANSの役割と今後の課題, ながれ, Vol. 35, No. 3, pp. 255-262,  2016.

3. 大風 翼, 井上宗則, 佃 悠：実務で活用するCFDの現状とこれから 第2回 都市街区計画へのCFDの適用, 建築技術2015年2月号, 62-63, 2015 01

4. 大風翼: 複雑流れ場における飛雪現象のモデル化に関する研究, 日本雪工学会誌, Vol.30, No.3, 241-244, 2013 07

5. 大風翼, 富永禎秀, 持田灯: 風による雪の輸送がもたらす環境障害 - 市街地内の吹きだまりの予測 -, 日本機械学会誌, vol. 116 No.1136, pp16-19,  2013 07

6. 大風翼, 持田灯: 都市レベルの数値解析, 建築技術, pp174, 2012 12

7. 富永禎秀, 大風翼, 持田灯: 建物周辺の飛雪現象へのCFD適用の現状, 日本風工学会誌, vol. 37 No.1, pp42-50, 2012 01

8. 富永禎秀, 大風翼, 持田灯: 建物周辺の飛雪現象へのCFDの適用, 日本流体力学会誌 ながれ, vol.28 No.6, pp477-484, 2009 12

9. 富永禎秀, 大風翼, 持田灯: 建築的な雪問題への対応技術の現状―建物周辺の飛雪現象へのCFDの適応―, 2009年度日本建築学会大会（東北） 構造部門（荷重） パネルディスカッション資料,  日本建築学会, pp21-28, 2009 08