Model for wind tunnel experiment at Shinjuku Shintoshin |
In wind-resistant design of buildings, wind loads are calculated according to the design wind speed based on the external pressure and wind force coefficients obtained from the Building Standards Law, AIJ Recommendations for Loads on Buildings, wind tunnel experiments, and numerical fluid calculations. Wind loads include structural frame wind loads for the design of main structural members such as columns and beams, and exterior wind loads for the design of exterior finish materials such as glass. Wind tunnel tests and numerical fluid dynamics simulations, like wind tunnel models, reproduce not only the building under study but also the surrounding buildings over a wide area, making it possible to evaluate wind loads in a realistic manner. |
Wind tunnel test on the Akashi Kaikyo Bridge (1991) |
Wind effects cannot be ignored in bridge design. Especially for long-span bridges such as the Akashi-Kaikyo Bridge, it is necessary to verify not only the effects of wind loads, which are static effects, but also aerodynamic vibration phenomena, which are dynamic effects. To avoid a repeat of the 1879 collapse of the Tay Bridge in England and the 1940 collapse of the old Tacoma Bridge in the U.S., numerous studies on aerodynamic characteristics of bridge girders, towers, and suspension members have been conducted to date through wind tunnel tests, computational fluid dynamics (CFD), field observations, and so forth. |
Helicopter line extension under construction |
Many of Japan's power transmission towers are located in mountainous areas where the topography is rugged. Because mountainous areas are subject to strong winds caused by the undulations of the terrain, it is important to consider the geographical characteristics of each region when designing wind-resistant transmission towers. In addition, overhead power lines sway and vibrate in strong winds, and if the wires are too close to each other, insulation breakdown (flashover) may occur, making it impossible to transmit power. |
Turbulence in the approaching flow and the 3-D prismatic column Interference with wake vortex |
Wind is a flow of air, and air is a fluid. Computational Fluid Dynamics (CFD), which predicts approximate flows by computer simulation based on the Navier-Stokes equations of motion of fluids, is widely applied to wind engineering. The three-dimensional flow information obtained by CFD not only complements experiments and observations and helps in understanding phenomena, but is also beginning to be used in practice to predict wind loads acting on buildings, bridges, and other structures, as well as the wind environment in urban pedestrian spaces. |
Visualization of high-temperature exhaust gas from a plant Visualization of diffusion properties |
Wind carries substances and heat. For example, air pollution problems such as pollutants released into the air from factories and exhaust gases from automobiles, diffusion of heat from air conditioning equipment, ventilation that maintains the indoor environment by bringing pollutants, heat, and odors generated indoors out and fresh air indoors in, and ventilation that brings outdoor air into the room to reduce the temperature of the body. Ventilation brings outdoor breezes into the room to lower the temperature. Air pollution, diffusion, ventilation, and ventilation are also research topics in wind engineering. |
Damage to the five-story pagoda of Muroji Temple caused by Typhoon No. 9807 Damage to the five-story pagoda of Muroji Temple (1998) |
When a strong wind disaster occurs, experts in meteorology, architecture, transportation, and other areas related to wind engineering conduct field investigations. The main purpose of the field survey is to collect data to analyze the cause of the damage. In the field, we will assess the damage situation of the surveyed area. The survey results are complemented by interviews with witnesses, victims, and local authorities at the time of the disaster. In addition to the collected field survey results, meteorological data, video footage, and information from the media will be analyzed to clarify the situation at the time of the disaster. The survey results will be compiled into papers, reports, etc., and utilized for future countermeasures against strong wind disasters. |
Chitose Tornado(1988) |
Tornado are caused by updrafts associated with strongly developing cumulonimbus clouds. They occur and develop in an extremely short period of time and produce fierce wind gusts tens to hundreds of meters wide and several kilometers to tens of kilometers across, causing extensive damage to local properties. Since it is difficult to observe directly, wind speed is estimated from the state of damage to estimate the strength and scale of Tornado. In addition to working to improve the accuracy of the Japanese modified Fujita scale (JEF) used for this purpose, we also use experiments and numerical fluid analysis to investigate the flow structure of a tornado, the characteristics of the wind loads generated therein, and the flight characteristics of flying debris to ensure the safety of important structures and other objects against wind gusts such as tornadoes. |
Hachijojima Wind Farm |
Wind energy is expected to play an important role in the power supply structure, and is being deployed onshore and offshore around the world. Research and development covers a wide range of areas, including R&D on wind turbine structures and control to improve power generation efficiency, wind-resistant design to protect wind turbines from strong winds, and evaluation and prediction of wind capacity and value as a resource, such as wind abundance, topography, and regional characteristics. These R&D activities are conducted using wind tunnel experiments, numerical simulations, monitoring and statistical analysis, and are the subject of active discussions. |
At the Board of Directors meeting held on May 25, 2022 after the General Meeting of Members, I was elected President for the 24th term, following the 23rd term. The lineup of officers for the 23rd term is exactly the same as for the 23rd term, but since the members entrusted me with the management of the Society during the Corona disaster, I am determined to make a concerted effort to adapt to the changes in society caused by the Corona disaster.
Two years ago, upon assuming the presidency, I submitted my article "The Japan Society of Wind Engineering after the Corona" to the July 2020 issue of the Journal of the Japan Society of Wind Engineering. At the time, I was hopeful that the coronary crisis would not last long and would soon subside, and that we would be able to hold our annual research presentations and general meetings in person one year later. As of July 2022, the number of newly infected persons has been over 200,000/day on consecutive days compared to the peak of the Omicron strain around February (over 100,000 newly infected persons/day). In Japan, although the Ministry of Health, Labour and Welfare (MHLW) issued a guideline in May 2022 on the "wearing of masks outdoors and indoors," the reality is that many people still wear masks even outdoors. Although the wearing of masks indoors and outdoors will gradually be eased in the future, it may still take some time for Japan to become almost mask-free, as it is in other countries.
Looking back over the past two years, the Annual Research Presentation (Organized Session) and the General Meeting of Members in May 2020 were suddenly cancelled due to the unavailability of the University of Tokyo's Yamagami Hall due to the Corona disaster, and the General Meeting of Members was held both onsite (Tsukuba Research Support Center) and online. The Annual Research Presentations in 2021 and 2022 (general and organized sessions in both years) and the General Meeting of Members were prepared for the online conference format from the beginning and could be held without any major problems. During the two years of the 23rd period, not only the annual research presentations and the general meeting of members, but also almost all meetings of the JFEMA, including the board of directors, representative committee meetings, committee meetings, and study groups, were held online, and the online holding of meetings progressed at a rapid pace. This may be due to the fact that face-to-face meetings can no longer be held due to the Corona disaster, the rapid spread of web conferencing tools such as skype, zoom, and teams, as well as the widely recognized advantages of holding meetings online (participation of members from distant locations, saving travel time to attend meetings, reducing meeting expenses, etc.). This is thought to be due to the rapid dissemination of web conferencing tools such as web conferencing tools. Even after the Corona disaster, meetings that can be held online, such as board and committee meetings, are likely to continue to be held online. In addition, the paperless format of meetings was promoted by distributing materials used at meetings in digital files.
On the other hand, the conferences of various associations, such as the Annual Meeting of the Architectural Institute of Japan (September 5-8, 2022, Hokkaido University of Science), the National Convention of JSCE (September 12-16, 2022, Kyoto University, Kyoto International Conference Hall), the Annual Meeting of the Japan Society of Fluid Mechanics (September 27-29, 2022, Kyoto University), the Autumn Meeting of the Meteorological Society of Japan (October 24-27, 2022, Hokkaido University), the Symposium on Wind Engineering Symposium (December 5-7, 2012, JSCE Auditorium), etc., which used to be mainly held online, are now rapidly considering and preparing to move away from online conferences, such as holding them both face-to-face and online, starting this fall. It is believed that they are trying to incorporate face-to-face meetings in anticipation of direct interaction among members, which is not possible with online meetings alone. In order to hold a face-to-face meeting, we anticipate some troublesome preparatory procedures, such as holding both a face-to-face meeting and an online meeting, or switching from a face-to-face meeting to an online meeting, in order to deal with the re-spread of coronary infections, etc. The JFIA is also considering holding a face-to-face meeting at the Annual Research Meeting in May 2023. The Japan Society of Wind Engineering is also considering the possibility of holding the annual conference in May 2023 in a face-to-face meeting.
During the 23rd term, in addition to holding meetings online and going paperless, we have also promoted the financial soundness of the association and established the Future Vision Working Group. During the two years of the 23rd term, there was an increase in the net assets of the JSCPA as a result of the promotion of financial soundness. This was due to the aforementioned savings in expenses for holding meetings by holding meetings online and going paperless, as well as savings in printing expenses for the JSCE journal and administrative expenses for the JSCE. Despite the decrease in membership fee income due to the decline in the number of members and other factors, the Society was able to save even more money by reviewing and reducing its expenses significantly. We will continue our efforts to reduce expenses in the 24th fiscal year.
With regard to the number of members of the Society, the introduction of the senior membership system seems to have halted the long-term downward trend of regular members to some extent, but the number of members has yet to increase. The number of student members, which had been on the decrease for a long time, has remained almost the same, the number of supporting members has remained almost the same, and the number of honorary members is on the increase. In terms of the age structure, the largest number of members are in their 50s, and the number of members in their 20s and 30s is decreasing. In order to increase the number of regular members in the future, we believe that increasing the number of student members is an urgent issue. The reason why we have changed the general session of the annual meeting from every two years to every year is that we expect more student members to join and present their research.
In the 23rd term, the Future Vision Working Group was established for the purpose of discussing the long-term activity policy of the Japan Wind Engineering Association. As announced in the activity report at the recent general meeting of members, we held a total of 10 meetings during the 23rd term to discuss the mission and vision of the JFW. In the 24th term, the Future Vision Working Group will continue to discuss and implement concrete measures to realize the vision.
In my preface two years ago, I concluded, "Next year, I hope to see you all at the annual meeting, not online, but in person. Unfortunately, this was not possible. Next year, I hope to see all the members at the annual meeting in person.
This article was originally published in the Journal of the Japan Society of Wind Engineering, Vol. 47, No. 3 (No. 172), July 2022, and has been partially revised.
奥田 泰雄(会長) | 村上 琢哉(財務担当) | 松井 正宏(財務担当) | 植松 康(IAWE担当) |
石原 孟 | 大岡 龍三 | 片岡 浩人 | 勝地 弘 |
木村 吉郎 | 小林 文明 | 鈴木 修 | 竹見 哲也 |
富永 禎秀 | 西嶋 一欽 | 八木 知己 |
大竹 和夫 | 近藤 宏二 |
池谷 直樹 | 石田 泰之 | 伊藤 靖晃 | 大風 翼 |
小野 佳之 | 勝村 章 | 喜々津 仁密 | 菊本 英紀 |
岸田 岳士 | 作田 美知子 | 佐藤 英一 | 佐藤 大樹 |
染川 大輔 | 竹内 崇 | 田中 英之 | 田村 哲郎 |
友清 衣利子 | 野口 恭平 | 野田 博 | 野田 稔 |
野津 剛 | 長谷部 寛 | 松宮 央登 | 宮下 康一 |
持田 灯 | 山口 敦 | 山本 学 | 義江 龍一郎 |
吉川 優 | 吉田 昭仁 |
富永 禎秀(委員長) | 石原 孟(副委員長) | 竹見 哲也(副委員長) | |
池谷 直樹(幹事) | 石田 泰之(副幹事) | 赤星 明紀 | 伊藤 靖晃 |
喜々津 仁密 | 菊本 英紀 | 玄 英麗 | 作田 美知子 |
瀧本 浩史 | 中藤 誠二 | 松井 正宏 | 村上 琢哉 |
木村 吉郎(委員長) | 大岡 龍三(副委員長) | 野口 恭平(幹事) | 有波 裕貴(副幹事) |
北川 徹哉 | 白澤 多一 | 染川 大輔 | 髙舘 祐貴 |
田中 英之 | 垂石 早紀 | 堤 拓哉 | 中島 慶悟 |
野田 稔 | 普後 良之 | 三須 弥生 |
片岡 浩人(委員長) | 小林 文明(副委員長) | 佐藤 大樹(幹事) | |
植松 康 | 大岡 龍三 | 木村 吉郎 | 中藤 誠二 |
藤部 文昭 | 丸山 敬 | 義江 龍一郎 |
西嶋 一欽(委員長) | 鈴木 修(副委員長) | 友清 衣利子(幹事) | |
池内 淳子 | 岩下 久人 | 高舘 祐貴 | 髙森 浩治 |
堤 拓哉 |
長谷部 寛(事務局長) | 竹内 崇(事務局次長) |
(2023年01月31日現在)
If you wish to become a member, please download the membership application form below, fill in the designated fields, and send it to the following address by e-mail, fax, or mail.
After application, the secretariat will send you information on payment of the membership fee.If you have not heard from us after one month, please contact us again.
Application for Membership in the Japan Association for Wind Engineering
Membership Types | Annual Fees | Benefits and remarks |
Regular Members (Individual) |
10,000 yen |
|
Student Member (Individual) |
5,000 yen |
Please attach a copy of your student ID card with the expected date of graduation (completion) at the time of admission procedure. Student members are automatically terminated upon their scheduled graduation (completion) date. |
Supporting Member (individual or group) |
70,000 yen per unit |
For information about participation in various events, please contact us. |
Rules and Regulations of the Japan Society of Wind Engineering (267.75 KB)
Secretariat of Japan Association for wind engineering
Zip Code: 100-0003
Palaceside Building, 1-1-1 Hitotsubashi, Chiyoda-ku, Tokyo
Mainichi Academic Forum, Inc.
TEL: 09-6267-4550
FAX 03-6267-4555
E-mail: maf-jawe☆mynavi.jp (Please replace "☆" with "@")
年 | 月 | 日本風工学会関連 | 月 | 世界風工学会、国際風工学会議関連 | 土木関係 | 建築関係 | 強風災害 | 会長、委員長、事務局長(敬称略) | 世相 | |||||||||||
1976 | 2 | 日本風工学研究会設立 | 本四連絡橋台風設計基準 |
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ロッキード事件 | |||||||||||||||
8 | 風工学研究会会報第1号発刊 | |||||||||||||||||||
12 | 第4回構造物の耐風性に関するシンポジウム(東京、気象庁) | |||||||||||||||||||
1977 | 5 | 日本風工学研究会内規制定 | 平戸大橋 | 池袋サンシャイン60(230m) | 有珠山噴火 | |||||||||||||||
1978 | 12 | 第5回構造物の耐風性に関するシンポジウム(東京、気象庁) | 荒川中川橋東西線横転事故 | 成田空港開港、宮城県沖地震 | ||||||||||||||||
1979 | 10 | 事務局移転(風工学研究所内)、編集委員会発足 | 7 | 第5回ICWE(アメリカ、コロラド) | 大三島橋 | 台風20号、高層建物風揺れ |
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1980 | 4 | 風工学研究会誌発刊 | ||||||||||||||||||
11 | 第6回風工学シンポジウム(東京、日本学術会議) | |||||||||||||||||||
1981 | 建築物荷重指針・同解説 | |||||||||||||||||||
1982 | 6 | 日本風工学会に改名、学会規約制定、運営委員会発足 | 大和川橋梁 |
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ホテルニュージャパン 東北・北陸新幹線開業 |
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12 | 第7回風工学シンポジウム(東京、気象庁) | |||||||||||||||||||
1983 | 7 | 第1回年次研究発表会(東京、東京大学生産研究所) | 3 | 第6回ICWE(オーストラリア、ゴールドコースト) | 因島大橋 | 日本海中部地震 | ||||||||||||||
1984 | 6 | 事務局移転(日本学会事務センター内) | ||||||||||||||||||
第2回年次研究発表会(東京、東京大学生産研究所) | ||||||||||||||||||||
12 | 第8回風工学シンポジウム(東京、気象庁) | |||||||||||||||||||
1985 | 7 | 第3回年次研究発表会(東京、東京大学生産研究所) | 12 | 第1回APSOWE(インド、ルアーキ) | 大鳴門橋、名港西大橋 | 事務局長 | 神田順 | 国際科学技術博覧会(つくば博) | ||||||||||||
1986 | 6 | 第4回年次研究発表会(東京、東京大学生産研究所) | 千葉ポートタワー(125m) | 余部鉄橋列車転落事故 | 会長 運営委員長 編集委員長 |
伊藤学 白石成人 村上周三 |
チェルノブイリ原発事故 | |||||||||||||
12 | 第9回風工学シンポジウム(東京、東京電機大学) | |||||||||||||||||||
1987 | 5 | 第5回年次研究発表会(京都、日本イタリア京都会館) | 7 | 第7回ICWE(西ドイツ、アーヘン) | 国鉄分割民営化 | |||||||||||||||
1988 | 10 | 第1回BBAA(京都、京都国際会議場) | 瀬戸大橋 | 東京ドーム | 青函トンネル開通 | |||||||||||||||
12 | 第10回風工学シンポジウム(東京、中央大学) | |||||||||||||||||||
1989 | 11 | 第7回年次研究発表会(東京、東京大学) | 6 | 第2回APSOWE(中国、北京) | 横浜ベイブリッジ | NEC本社ビル | 昭和天皇崩御 | |||||||||||||
1990 | 5 | 第8回年次研究発表会(東京、東京大学) | 道路橋示方書改定 | 茂原市で竜巻 | 東西ドイツ統一 | |||||||||||||||
12 | 第11回風工学シンポジウム(東京、中央大学) | |||||||||||||||||||
1991 | 5 | 第9回年次研究発表会(鹿児島、鹿児島大)、表彰委員会発足 | 7 | 第8回ICWE(カナダ、ロンドン) | 道路橋耐風設計便覧 | 東京都庁(243m) 風揺れによる居住性指針 |
台風19号、送電線倒壊(中国、四国、九州) | 表彰委員長 事務局長 |
岡内功 藤野陽三 |
湾岸戦争勃発、ソ連崩壊 | ||||||||||
1992 | 8 | 第1回CWE92(東京、東大)、会誌50号記念、学会賞開始 | 8 | 第1回CWE96(日本、東京) | 鉄道構造物等設計標準 | 会長 運営委員長 編集委員長 表彰委員長 |
白石成人 村上周三 大熊武司 岡内功 |
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12 | 第12回風工学シンポジウム(東京、建築会館) | 12 | 第2回BBAA(オーストラリア、メルボルン) | |||||||||||||||||
1993 | 5 | 平成5年度年次研究発表会(金沢、金沢大学) | 12 | 第3回APSOWE(香港、香港) | レインボーブリッジ | 横浜ランドマークタワー(296m) | 台風13号、送電鉄塔倒壊(九州) | 北海道南西沖地震 | ||||||||||||
1994 | 5 | 平成6年度年次研究発表会(東京、東京大学生産研究所) | 新木津川大橋 | 関西国際空港開港 | 表彰委員長 | 中村泰治 | ||||||||||||||
11 | 第13回風工学シンポジウム(東京、日本学術会議) | |||||||||||||||||||
1995 | 5 | 平成7年度年次研究発表会(横浜、横浜国立大学) | 1 | 第9回ICWE(インド、デリー) | 大阪ワールドトレードセンター(256m) | 事務局長 | 加藤信介 | 阪神淡路大震災、地下鉄サリン事件 | ||||||||||||
1996 | 5 | 平成8年度年次研究発表会(東京、学士会館) | 7 | 第3回BBAA(アメリカ、バージニア) | りんくうゲートタワー(256m) | 茨城でダウンバースト | 会長 運営委員長 編集委員長 表彰委員長 |
村上周三 大熊武司 松本勝 岡島厚 |
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12 | 第14回風工学シンポジウム(東京、日本学術会議) | 8 | 第2回CWE96(アメリカ、フォートコリンズ) | |||||||||||||||||
1997 | 5 | 平成9年度年次研究発表会(福岡、福岡工業大) | 7 | 第4回APSOWE(オーストラリア、ゴールドコースト、) | 東京湾アクアライン | 温暖化防止会議(京都) | ||||||||||||||
10 | 編集委員会を編集・広報委員会へ改名 | |||||||||||||||||||
1998 | 5 | 平成10年度年次研究発表会(東京、東京大学)、風災害研究会発足 | 明石海峡大橋、白鳥大橋 | 台風7、8号、室生寺五重塔被害 | 事務局長 | 持田灯 | 冬季五輪長野大会 | |||||||||||||
12 | 第15回風工学シンポジウム(東京、日本学術会議) | |||||||||||||||||||
1999 | 5 | 平成11年度年次研究発表会(徳島、徳島大学)、出張講義開始 | 6 | 第10回ICWE(デンマーク、コペンハーゲン) | 来島海峡大橋 | 豊橋市で竜巻 | 欧州通貨統合 | |||||||||||||
2000 | 5 | 平成12年度年次研究発表会(東京、東京大学) | 9 | 第4回BBAA(ドイツ、ボッフム) | 安芸灘大橋 | 建設省告示第1454号・1458号ほか(建築基準法風荷重関係規定)施行 | 会長 運営・学術委員長 編集・広報委員長 表彰委員長 事務局長 |
大熊武司 松本勝 田村幸雄 藤野陽三 山田均 |
三宅島噴火 | |||||||||||
12 | 第16回風工学シンポジウム(東京、日本学術会議) | 第3回CWE2000(イギリス、バーミンガム) | ||||||||||||||||||
運営委員会を運営・学術委員会へ改名 | ||||||||||||||||||||
2001 | 5 | 平成13年次通常総会および特別講演(東京、東京大学) | 10 | 第5回APCWE(日本、京都) | ニューヨーク世界貿易センタービル崩壊 | |||||||||||||||
10 | 第5回APCWE(京都、京都国際会館) | |||||||||||||||||||
2002 | 5 | 平成14年度年次研究発表会(厚木、東京工芸大学) | 台風21号、送電鉄塔倒壊(関東) | 会長 運営・学術委員長 編集・広報委員長 表彰委員長 |
松本勝 田村幸雄 藤野陽三 河井宏允 |
サッカーW杯日韓合同開催 | ||||||||||||||
12 | 第17回風工学シンポジウム(東京、日本学術会議) | |||||||||||||||||||
2003 | 5 | 平成15年度年次研究発表会(仙台、東北大学) | 5 | 第11回ICWE(アメリカ、テキサス) | 六本木ヒルズ森タワー(238m) | 台風14号、宮古島で74.1m/s記録、風車倒壊 | ||||||||||||||
2004 | 5 | 平成16年度年次研究発表会(東京、東京大学) | 7 | 第5回BBAA(カナダ、オタワ) | 台風18号、厳島神社被害 台風23号死者・行方不明98人 |
会長 運営・学術委員長 編集・広報委員長 表彰委員長 事務局長 |
田村幸雄 藤野陽三 河井宏允 久保善延 白土博通 |
新潟県中越地震発生 姉歯事件(構造計算書偽装) |
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12 | 第18回風工学シンポジウム(東京、日本学術会議) | |||||||||||||||||||
日本学会事務センター不祥事事件 | ||||||||||||||||||||
2005 | 5 | 平成17年度年次研究発表会(京都、京都大学) | 9 | 第6回APCWE(韓国、ソウル) | 中部国際空港開港 | 酒田市で竜巻 羽越本線脱線事故 |
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政府への提言(強風災害防止) | ||||||||||||||||||||
2006 | 5 | 平成18年度年次研究発表会(東京、東京大学) | 7 | 第4回CWE2006(日本、横浜) | 強風によりJR羽越本線脱線 延岡、北海道佐呂間町で竜巻 |
会長 運営・学術委員長 編集・広報委員長 表彰委員長 事務局長 |
田村幸雄 藤野陽三 河井宏允 内藤玄一 白土博通 |
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7 | 第4回CWE2006(横浜、パシフィコ横浜) | |||||||||||||||||||
12 | 第19回風工学シンポジウム(東京、東京大学) | |||||||||||||||||||
2007 | 4 | 風災害連絡調査委員会発足 | 7 | 第12回ICWE(オーストラリア、ケアンズ) | 道路橋耐風設計便覧改訂 | 東京ミッドタウン(248m) | 風災害調査連絡委員長 | 植松康 | 新潟県中越沖地震 | |||||||||||
5 | 平成19年度年次発表会(東京、東京大学) | |||||||||||||||||||
Tachikawa Number(Ta) IAWEで推奨、特別賞:立川先生 | ||||||||||||||||||||
IAWE Senior Award(村上先生)、風工学ハンドブック刊行 | ||||||||||||||||||||
2008 | 5 | 平成20年度年次研究発表会(東京、東大生産研) | 7 | 第6回BBAA(イタリア、ミラノ) | 会長 運営・学術委員長 編集・広報委員長 表彰委員長 風災害調査連絡委員長 事務局長 |
藤野陽三 河井宏允 加藤信介 山田均 植松康 勝地弘 |
リーマンショック | |||||||||||||
8 | 日本風工学会の課題と行動計画に関する検討報告書 | |||||||||||||||||||
12 | 第20回風工学シンポジウム(東京、東大) | 田村先生IAWE会長就任 | ||||||||||||||||||
2009 | 5 | 平成21年度年次大会(東京、日本大学)、法人化 | 豊島大橋 | 大スパン競技場(FIFA) | 裁判員制度施行 | |||||||||||||||
2010 | 5 | 平成22年度年次研究発表会(東京、東京大学) | 5 | 第5回CWE2010(アメリカ、チャペルヒル) | 会長 運営・学術委員長 編集・広報委員長 表彰委員長 風災害調査連絡委員長 事務局長 |
河井宏允 山田均 加藤信介 前田潤滋 植松康 奥田泰雄 |
小惑星探査機「はやぶさ」帰還 | |||||||||||||
12 | 第21回風工学シンポジウム(東京、東京大学) | |||||||||||||||||||
2011 | 5 | 平成23年度年次研究発表会(大阪、大阪市立大学) | 7 | 第13回ICWE(オランダ、アムステルダム) | 広島空港大橋 | 東日本大震災発生 | ||||||||||||||
IAWE Senior Award(松本先生) | ||||||||||||||||||||
2012 | 5 | 平成24年次年次研究発表会(東京、東京理科大学) | 9 | 第7回BBAA(中国、上海) | 東京ゲートブリッジ | 東京スカイツリー(634m) | つくば市で竜巻 | 会長 運営・学術委員長 編集・広報委員長 表彰委員長 風災害調査連絡委員長 事務局長 |
山田均 植松康 野村卓史 加藤信介 前田潤滋 八木知己 |
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12 | 第22回風工学シンポジウム(東京、東京大学) | |||||||||||||||||||
2013 | 5 | 平成25年次年次研究発表会(仙台、東北大学) | 12 | 第8回APCWE(インド、チェンナイ) | 富士山が世界文化遺産登録 | |||||||||||||||
2014 | 5 | 平成26年度年次研究発表会(東京、東京大学)、デザイン賞開始 | 6 | 第6回CWE2014(ドイツ、ハンブルク) | あべのハルカス(300m) | 会長 運営・学術委員長 編集・広報委員長 表彰委員長 風災害調査連絡委員長 事務局長 |
植松康 野村卓史 白土博通 奥田康雄 前田潤滋 吉田昭仁 |
富岡製糸場と絹産業遺産群が世界遺産登録 | ||||||||||||
12 | 第23回風工学シンポジウム(東京、東京大学) | |||||||||||||||||||
2015 | 5 | 平成27年度年次研究発表会(徳島、徳島大学) | 6 | 第14回ICWE(ブラジル、ポルトアレグレ) | ||||||||||||||||
日本版改良藤田スケール(JFEスケール)←気象庁 | ||||||||||||||||||||
2016 | 5 | 平成28年度年次研究発表会(東京、東大)、40周年記念式典、祝賀会 | 熊本地震 | |||||||||||||||||
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