"LI Yezhan,Tsubasa Okaze","PERFORMANCE OF POLYHEDRAL MESH IN LARGE-EDDY SIMULATION OF FLOW AND TEMPERATURE FIELDS WITHIN A CUBIC ARRAY IN UNSTABLE BOUNDARY LAYER",,"風工学研究論文集","一般社団法人 日本風工学会","Vol. 27","No. 0","pp. 38-47",2022,Dec.
"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","一般社団法人 日本風工学会","Vol. 27","No. 0","pp. 48-57",2022,Dec.
"Hitomitsu Kikitsu,Hideki Kikumoto,Y. Takadate,Yasuo Okuda,Tsubasa Okaze,Y. Tominaga","Review of Wind Resistant Design for Tiled Roofs and Publication of New CFD Guidebook for Urban Wind Environment: Japan Country Report 2021",,"CONSTRUCTION",,"Vol. 2","No. 2","pp. 114-125",2022,Dec.
"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","一般社団法人 日本風工学会","Vol. 27","No. 0","pp. 19-27",2022,Dec.
"WANG Wei,KAWAMINAMI Taishi,SETA Koki,IKEGAYA Naoki,OKAZE Tsubasa","ESTIMATION OF LOW-OCCURRENCE WIND SPEED AT THE PEDESTRIAN LEVEL AROUND AN ISOLATED BUILDING:",,"風工学研究論文集","Japan Association for Wind Engineering","Vol. 27","No. 0","pp. 28-37",2022,Dec.
"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",,,,,2022,Oct.
"Tsubasa Okaze,Chika Tada","Development and performance evaluation of a micro anaerobic digestion system for household use",,"Japan Architectural Review",,,,,2022,Oct.
"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","一般社団法人 日本建築学会","Vol. 28","No. 69","pp. 1083-1088",2022,June
"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","システム農学会","Vol. 38","No. 2","pp. 37-42",2022,June
"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",,"Vol. 96","No. 5","pp. 365-372",2022,May
"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","公益社団法人 日本雪氷学会","Vol. 84","No. 3","pp. 213-227",2022,May
"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","Elsevier Ltd","Vol. 209","No. November 2021","pp. 108644",2022,Feb.