著書論文等- 持田 灯 -
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件数:381件
[2018]
1.[] 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 & Industrial Aerodynamics,183,(2018),187-197]Miguel Yamamoto, Masataka Kasai, Tsubasa Okaze, Kazumasa Hanaoka, Akashi Mochida
2.[] Influence of urban configuration on the structure of kinetic energy transport and the energy dissipation rate.[Journal of Wind Engineering & Industrial Aerodynamics,183,(2018),198-213]Yasuyuki Ishida, Tsubasa Okaze, Akashi Mochida
3.[] ドップラーライダー計測と温湿度の多点同時測定に基づく仙台の気候特性の把握.[第25回風工学シンポジウム論文集,(2018),145-150]小野田真帆,石田泰之,渡辺浩文,山本ミゲイル,上田裕洋,持田灯
4.[] コヒーレント構造Smagorinsky モデルによる2:1:1 単体角柱周辺流れのLES 解析.[第25回風工学シンポジウム論文集,(2018),199-204]小野 梓,持田 灯,ファム バン フック
5.[] 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.[第25回風工学シンポジウム論文集,(2018),211-216]大風 翼,持田 灯
6.[] 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.[第25回風工学シンポジウム論文集,(2018),223-228]河西 昌隆,大風 翼,石田 泰之,山本 ミゲイル,持田 灯
7.[] 列植樹木の間隔が歩行経路の各温熱要素に及ぼす影響の分析.[第25回風工学シンポジウム論文集,(2018),133-138]本間実季,新井千秋,石田泰之,持田 灯
8.[] Wind tunnel experiment and CFD analysis of sand erosion/deposition due to wind around an obstacle.[Journal of Wind Engineering & Industrial Aerodynamics,182,(2018),262-271]Yoshihide Tominaga, Tsubasa Okaze, Akashi Mochida
9.[] Evaluation of effects of windows installed with near-infrared rays retro-reflective film on thermal environment in outdoor spaces using CFD analysis coupled with radiant computation.[Building Simulation,11(5),(2018),1053-1066]Shinji Yoshida, Akashi Mochida
10.[] LES on the relationship between geometric parameters of buildings and pedestrian-level wind velocity in the built-up areas.[Proceedings of The 7th International Symposium on Computational Engineering 2018,(2018)]Yasuyuki Ishida, Issei Takada, Akashi Mochida, Tsubasa Okaze
11.[] CFD Prediction of Effects of Windbreak Forests on Occurrence Frequency of Wind-Blown Sand in Coastal Agricultural Area of Sendai Plain.[Proceedings of International Workshop on Wind-Related Disasters and Mitigation,(2018)]Shu WATANABE, Tsubasa OKAZE, Yoshiteru TAKANO, Masashi IMANO, Akashi MOCHIDA, and Hiroyasu KOBAYASHI
12.[] Analysis of the structure of kinetic energy transport and dissipation due to the effect of urban roughness.[Proceedings of International Workshop on Wind-Related Disasters and Mitigation,(2018)]Yasuyuki Ishida, Tsubasa Okaze and Akashi Mochida
13.[] Wind tunnel experiment and CFD analysis of sand erosion/deposition due to wind around an obstacle.[Proceedings of International Workshop on Wind-Related Disasters and Mitigation,(2018)]Y. Tominaga, T. Okaze and A. Mochida
14.[] Prediction of heatstroke risk for Tokyo and Sendai during summer in the 2050s by dynamical downscaling of pseudo global warming data using WRF.[Proceedings of International Workshop on Wind-Related Disasters and Mitigation,(2018)]Miguel Yamamoto, Masataka Kasai, Tsubasa Okaze, Akashi Mochida and Kazumasa Hanaoka
[2017]
15.[] ライシメーター法による実大高木樹木の植栽密度の違いによる蒸散量の差異の検証.[環境情報科学 学術研究論文集,31,(2017),299-304]手代木 純,柳 雅之,持田 灯
16.[] Cholesky decomposition-based generation of artificial inflow turbulence including scalar fluctuation.[Computers and Fluids,159,(2017),23-32]Tsubasa Okaze, Akashi Mochida
17.[] Study on the Influence of Piloti Ratio on Thermal Comfort of Residential Blocks by Local Thermal Comfort Adaptation Survey and CFD Simulations.[Energy Procedia,134,(2017),712-722]Tianyu Xi, Jianhua Ding, Hong Jin, Akashi Mochida
18.[] Heatstroke Risk Predictions for Current and Near-Future Summers in Sendai, Japan, Based on Mesoscale WRF Simulations.[Sustainability,9(8),(2017),1467]Masataka Kasai, Tsubasa Okaze, Akashi Mochida, Kazumasa Hanaoka
10.3390/su9081467
19.[] Summer heatstroke risk prediction for Tokyo in the 2030s based on mesoscale simulations by WRF.[Journal of Heat Island Institute International,12-2,(2017),61-67]Masataka Kasai, Tsubasa Okaze, Miguel Yamamoto, Akashi Mochida, Kazumasa Hanaoka
20.[] Measurement of physiological responses of walking and standing pedestrians exposed to changeable thermal environment in outdoor space.[Journal of Heat Island Institute International,12-2,(2017),46-53]Takuma Hasegawa, Yasuyuki Ishida, Saori Yumino, Tomonobu Goto, Akashi Mochida
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