Updated on 2024/11/02

写真a

 
HIEJIMA Shinji
 
Organization
Faculty of Environmental, Life, Natural Science and Technology Professor
Position
Professor
External link

Degree

  • (BLANK)

Research Interests

  • Wind engineering

  • Wind power

  • Vibration control

  • Tidal power

  • Flow-induced oscillation

  • 流体制御

Research Areas

  • Environmental Science/Agriculture Science / Environmental materials and recycle technology

  • Environmental Science/Agriculture Science / Environmental load reduction and remediation

  • Social Infrastructure (Civil Engineering, Architecture, Disaster Prevention) / Structure engineering and earthquake engineering

Education

  • The University of Tokyo   工学系研究科   土木工学

    - 1996

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    Country: Japan

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  • The University of Tokyo    

    - 1996

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  • Kyushu University   工学部   土木工学

    - 1990

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    Country: Japan

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  • Kyushu University    

    - 1990

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Professional Memberships

Committee Memberships

  • 国土交通省中国地方整備局   総合評価審査委員会岡山県部会員  

    2022.4 - 2024.3   

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    Committee type:Government

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  • 旭硝子財団   地球環境国際賞「ブループラネット賞」ノミネーター  

    2022.4 - 2023.3   

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    Committee type:Other

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  • Grand Renewable Energy 2022   組織委員会  

    2022.4 - 2022.12   

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    Committee type:Academic society

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  • 日本学術振興会   特別研究員等審査会専門委員,卓越研究員候補者選考委員会書面審査員,国際事業委員会書面審査員・書面評価員  

    2021.7 - 2023.6   

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  • 土木学会   橋梁の耐風設計における数値流体解析ガイドライン作成小委員会委員  

    2019.4 - 2023.3   

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    Committee type:Academic society

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Papers

  • 振り子式ギャロッピング振動発電のエネルギー取得性能の効率的評価 Reviewed

    比江島慎二, 三木弟梧

    風工学研究論文集   27   237 - 244   2022.11

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  • Proposal of Autonomous Kite-Sailing Power Generation and estimation of its energy harvesting performance Reviewed

    137   10 - 21   2021.5

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  • Experimental and theoretical study on energy harvesting performance of galloping-based energy harvester using rotationally oscillating blade Reviewed

    Hiejima, S, Izumi, K

    46 ( 1 )   1 - 11   2021.1

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  • Aerodynamic characteristics tests and flight simulator development of parafoil kites used for the Autonomous Kite-Sailing Power Generation Reviewed

    Hiejima, S, Endo, M, Yamamoto, A

    26   86 - 95   2020.11

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  • An improvement in energy harvesting performance of VENUS blade by suppressing blade tip vortices Reviewed

    Hiejima, S, Ito, J, Kurioka, D, Sakahira, S, Hanafusa, Y, Ueda, T

    91 - 96   2018.12

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  • Marine current energy harvester using galloping-induced oscillation and rotation

    Shinji HIEJIMA, Takeji UEDA

    Grand Renewable Energy 2018 Proceedings   2018.6

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  • An innovative turbine blade for water current power generation utilizing excitation mechanism of flow-induced oscillation Reviewed

    比江島慎二, 高松宏彰, 大熊広樹, 上田剛慈

    土木学会論文集B3(海洋開発)   74 ( 1 )   1 - 12   2018.2

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    DOI: 10.2208/jscejoe.74.1

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  • Pendulum-based water current energy converter using galloping oscillation Reviewed

    比江島慎二, 高松宏彰, 大熊広樹, 上田剛慈

    土木学会論文集B3(海洋開発)   73 ( 1 )   24 - 34   2017.5

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  • Characteristics of hydrodynamic force acting on circular cylinder pendulum in pendulum-based tidal energy converter Reviewed

    比江島慎二, 大熊広樹

    土木学会論文集A1(構造・地震工学)   72 ( 2 )   315 - 321   2016.5

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    Language:Japanese   Publishing type:Research paper (scientific journal)  

    DOI: 10.2208/jscejseee.72.315

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  • Hydro-VENUS: Pendulum-based tidal energy converter

    HIEJIMA, S

    International RIAM Symposium on Ocean Renewable Energy Technologies and related fluid dynamics researches/RIAM Research Workshop of Designated Joint Research Project on Development of Floating Marine Renewable Energy Systems   2015

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  • Feedback amplification of flow-induced vibration of circular cylinder by translational excitation of flat plate Reviewed

    高島優, 比江島慎二

    第23回風工学シンポジウム論文集   319 - 324   2014.12

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  • Feedback amplification of flow-induced vibration of circular cylinder by rotational excitation of flat plate Reviewed

    比江島慎二, 川東一幸

    第23回風工学シンポジウム論文集   325 - 330   2014.12

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  • Energy harvesting by flow-induced vibration of Hydro-VENUS converter Reviewed

    HIEJIMA, S, OKA K, HAYASHI, K, INOUE H

    Grand Renewable Energy 2014 Proceedings   2014

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  • Investigation of Feedback Amplification Characteristics for Wind-Induced Vibration Based Power Generation (Effect of Distance between Circular Cylinders) Reviewed

    比江島慎二, 中野正史郎

    日本風力エネルギー学会論文集   105 ( 1 )   8 - 13   2013.5

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    Language:Japanese   Publishing type:Research paper (scientific journal)   Publisher:Japan Wind Energy Association  

    DOI: 10.11333/jwea.37.1_A_8

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    Other Link: https://jlc.jst.go.jp/DN/JLC/20000670997?from=CiNii

  • Feedback control of wake galloping by rotational excitation of rectangular cylinder Reviewed

    Shinji Hiejima, Kazuyuki Kawahigashi

    Journal of Wind Engineering   38 ( 2 )   27 - 34   2013.4

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    In order to develop a new type of wind power generation using feedback amplification of the wind-induced vibration caused between tandemly-arranged rectangular and circular cylinders, wind tunnel experiments were conducted. In the feedback control, the rotational excitation of the windward rectangular cylinder controls the vibration of the leeward circular cylinder. When the windward rectangular cylinder is excited with the time lag less than half a period of the leeward circular cylinder vibration, the leeward circular cylinder vibration is amplified efficiently. On the contrary, the feedback excitation with the time lag greater than half a period of the leeward cylinder vibration suppresses the cylinder vibration sufficiently. Although the leeward cylinder vibration is amplified more efficiently as the control gain is stronger, the amplification effect diminishes beyond a critical gain.

    DOI: 10.5359/jwe.38.27

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  • Fundamental experiment for energy harvesting from flow-induced vibration of inverted pendulum Reviewed

    比江島慎二, 岡圭人, 林健一, 井上浩男

    土木学会論文集B3(海洋開発)   69 ( 1 )   12 - 21   2013.2

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    DOI: 10.2208/jscejoe.69.12

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  • Investigation on energy harvesting efficiency for flow-induced vibration based power generation using inverted pendulum Reviewed

    比江島慎二, 岡圭人, 林健一, 井上浩男

    第22回風工学シンポジウム論文集   425 - 430   2012.12

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    DOI: 10.14887/kazekosymp.22.0.425.0

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  • Finite difference simulation for high-accuracy prediction of wind turbine noise propagation (Effect of wind flow on noise propagation) Reviewed

    比江島慎二, 吉木健吾

    日本風力エネルギー学会論文集   102 ( 2 )   25 - 31   2012.8

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    Language:Japanese   Publishing type:Research paper (scientific journal)   Publisher:Japan Wind Energy Association  

    DOI: 10.11333/jwea.36.2_A_25

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    Other Link: https://jlc.jst.go.jp/DN/JLC/20000669366?from=CiNii

  • Experimental study on control parameters for aerodynamic vibration-based power generation using feedback amplification Reviewed

    比江島慎二, 中野正史郎

    土木学会論文集A1(構造・地震工学)   68 ( 1 )   88 - 97   2012.3

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    DOI: 10.2208/jscejseee.68.88

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  • Finite difference simulation for high-accuracy prediction of wind turbine noise propagation (Local gradient and sound absorbing boundary on ground surface) Reviewed

    吉木健吾, 比江島慎二

    日本風力エネルギー学会論文集   100 ( 4 )   1 - 6   2012.2

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    DOI: 10.11333/jwea.35.4_A_1

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  • Offshore wind observation using Doppler sodar with pendulum-type oscillation isolator Reviewed

    比江島慎二, 小銭進司

    風力エネルギー   97   108 - 115   2011.5

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    DOI: 10.11333/jwea.35.1_108

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  • Vibrational amplification technique for power generation using wind-induced vibration Reviewed

    比江島慎二, 樋吉佑一

    風力エネルギー   96   135 - 141   2011.2

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  • Feedback control of wake galloping by vibrating upwind circular cylinder Reviewed

    比江島慎二, 中野正史郎

    第21回風工学シンポジウム論文集   363 - 368   2010.12

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    DOI: 10.14887/kazekosymp.21.0.363.0

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  • Sway stabilization of Doppler sodar isolator for offshore wind observation Reviewed

    Shinji Hiejima, Shinji Kozeni

    Journal of Wind Engineering   35 ( 2 )   47 - 55   2010.4

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    In order to observe offshore wind with Doppler sodar on oscillating boats, the pendulum-type isolator to keep the horizontal state of the Doppler sodar was developed. The oscillation of the isolator pendulum itself was attempted to be suppressed by attaching additional masses to decrease the natural frequency of the pendulum and installing a damping system to dissipate the oscillation energy. As a result, the pendulum oscillation was suppressed sufficiently when the additional masses were attached above the rotation center of the isolator pendulum. In addition, the friction damper using sponge-like material suppressed the pendulum oscillation effectively. The offshore wind observation using the Doppler sodar with the developed isolation system verified that the vertical profiles of the observed wind speeds follow the power law or logarithmic law. In addition, the wind speeds and wind directions observed by the Doppler sodar have good correlations with those of the cup anemometer &amp
    wind vane at the onshore site.

    DOI: 10.5359/jwe.35.47

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  • Numerical analysis of outdoor sound field considering the effects of ground surface geometry and wind flow over complex terrains Reviewed

    比江島慎二, 向井靖彦, 吉木健吾

    土木学会論文集G   66 ( 1 )   35 - 45   2010.2

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    DOI: 10.2208/jscejg.66.35

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  • Sound shielding efficiency of noise barrier with improved Y-shaped edge against paving slab cutting machine noise Reviewed

    比江島慎二, 木村亮

    構造工学論文集   56A   296 - 304   2010

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    DOI: 10.11532/structcivil.56A.296

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  • Estimation of wind power potentials for the offshore wind farm plan in the seto inland sea Reviewed

    Shinji Hiejima

    Journal of Wind Engineering   34 ( 1 )   1 - 9   2009.1

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    The Seto Inland Sea is an appropriate place for offshore wind power generation due to the features of its vast shallow waters, numerous islands, calm waves and so on. In this study, offshore wind power potential in the Seto Inland Sea is estimated based on the wind prediction data of LAWEPS, and most appropriate sea areas for offshore wind power generation are extracted considering the constrained conditions such as wind speed, water depth, national parks and ship lanes. In addition, offshore wind power potentials are estimated around several industrial complexes developed at the coastal areas in the Seto Inland Sea considering the possibility of the combination between wind power generation and the industrial complexes.

    DOI: 10.5359/jwe.34.1

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  • Numerical treatment of ground surface boundary conditions in outdoor sound field analysis Reviewed

    比江島慎二, 吉木健吾, 向井靖彦

    応用力学論文集   12   205 - 213   2009

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  • Numerical analysis method for high-accuracy prediction of outdoor sound propagation under the influence of meteorological conditions Reviewed

    比江島慎二, 向井靖彦, 渡邊恭

    土木学会論文集A   65 ( 3 )   708 - 717   2009

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    A finite difference analysis method is developed to simulate outdoor sound propagation under the influence of inhomogeneous or unsteady meteorological conditions by applying the separable solution of aeroacoustics to the outdoor sound. It is verified that the perfectly reflecting boundary on ground surfaces and the nonreflective boundary to realize the sound transmission from finite domain to infinite domain virtually perform properly in the numerical analysis. Then the numerical analysis precisely simulated the advective effect of wind on sound propagation and the change of sound wavelength due to the difference of air temperature. Furthermore, a shadow zone of acoustic waves was identified from the computation of sound propagation with the nonuniform vertical distribution of wind flow.

    DOI: 10.2208/jsceja.65.708

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  • Offshore wind power potentials in the Seto Inland Sea Reviewed

    Shinji HIEJIMA, Yuuichi HIYOSHI

    Journal of Environmental Science for Sustainable Society   3   35 - 40   2009

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    DOI: 10.3107/jesss.3.35

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  • Effect of edge-improved noise barrier on paving slab cutting machine noise Reviewed

    比江島慎二, 一色威輝

    応用力学論文集   11   243 - 250   2008

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    DOI: 10.2208/journalam.11.243

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  • Wind prediction by correlation method using mini doppler sodar Reviewed

    樋吉佑一, 比江島慎二

    第20回風工学シンポジウム論文集   145 - 150   2008

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    DOI: 10.14887/kazekosymp.20.0.25.0

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  • Finite element analysis of outdoor noise propagation around structural objects

    HIEJIMA, S

    Proc. 3rd Asian-Pacific Congress on Computational Mechanics in conjunction with 11th International Conference on Enhancement and Promotion of Computational Methods in Engineering and Science   2007

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  • Finite element analysis of outdoor sound propagation around structural objects Reviewed

    比江島慎二

    構造工学論文集   53A   299 - 305   2007

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    DOI: 10.11532/structcivil.53A.299

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  • Feedback control of flow around a rectangular cylinder with side ratio of 4 Reviewed

    比江島慎二, 三好直, 野村卓史

    応用力学論文集   9   803 - 810   2006

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    DOI: 10.2208/journalam.9.803

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  • Offshore wind power potential in the Seto Inland Sea Reviewed

    比江島慎二, 中元健太, 田中隆一郎, 鈴木昌次, 山本計至

    第19回風工学シンポジウム論文集   115 - 120   2006

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    DOI: 10.14887/kazekosymp.19.0.115.0

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  • Suppression of vortex shedding around a bluff body by feedback velocity excitation Reviewed

    Shinji HIEJIMA, Tadashi WATANABE, Takashi NOMURA

    Theoretical and Applied Mechanics Japan   55   195 - 200   2006

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    DOI: 10.11345/nctam.55.195

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  • Feedback control of vortex shedding around a bluff body by velocity excitation Reviewed

    S Hiejima, T Kumao, T Taniguchi

    INTERNATIONAL JOURNAL OF COMPUTATIONAL FLUID DYNAMICS   19 ( 1 )   87 - 92   2005.1

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    A feedback control technique of vortex shedding behind a circular cylinder is investigated by means of two-dimensional numerical simulations. Fluid velocity excitation is applied to the separated shear flows at two positions on the cylinder surface with time delay and feedback gain for the fluid velocity at a downstream sensor position. It is shown that the feedback excitation can suppress the vortex shedding considerably, if the time delay of the excitation is varied in accordance with the change of the vortex shedding period and the sensor is located inside the vortex formation region behind the cylinder.

    DOI: 10.1080/10618560412331286319

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  • Control of vortex shedding around a circular cylinder by feedback velocity excitation Reviewed

    比江島慎二, 熊尾友憲

    土木学会論文集   ( 773 )   79 - 88   2004

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    A feedback control technique of vortex shedding behind a circular cylinder is investigated through two- and three-dimensional numerical simulations. Periodic velocity excitation is applied from the cylinder surface to the separated shear flows with a time delay and feedback gain for the fluid velocity at a downstream sensor location. It is shown that the feedback excitation can suppress the vortex shedding considerably. However, the suppressing effect on the vortex shedding becomes lower if the time delay is fixed between the feedback excitation and the fluid velocity at the sensor location or the sensor is located downstream of the formation region of the vortices behind the cylinder. This is because the change of the vortex shedding frequency and the wavelength resulting from the suppression of the vortex shedding alters the phase delay between the vortex shedding and the feedback excitation.

    DOI: 10.2208/jscej.2004.773_79

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  • An experimental study on suppression of wind-induced vibration of a rectangular cylinder by pulsating jets from the leading edges Reviewed

    野村卓史, 岡田俊彦, 高木耕平, 目時通裕, 比江島慎二

    第18回風工学シンポジウム論文集   401 - 406   2004

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    DOI: 10.14887/kazekosymp.18.0.000027.0

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  • Sound shielding efficiency of a noise barrier with a fairing plate Reviewed

    比江島慎二, 平川陽介, 井保大志, 濱野陽一郎

    第18回風工学シンポジウム論文集   425 - 430   2004

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    DOI: 10.14887/kazekosymp.18.0.000095.0

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  • Feedback control of vortex shedding behind a bluff body by velocity excitation

    HIEJIMA, S

    J. Faculty of Environmental Science and Technology (Special Edition)   159 - 163   2004

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  • Effect of a top plate of a noise barrier on sound shielding efficiency Reviewed

    比江島慎二, 井保大志

    構造工学論文集   50A   369 - 374   2004

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  • Feedback control of Karman vortex shedding behind a circular cylinder by velocity excitation Reviewed

    比江島慎二, 渡邊恭, 野村卓史

    応用力学論文集   7 ( 2 )   1125 - 1132   2004

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    DOI: 10.2208/journalam.7.1125

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  • Suppression mechanism of the vortex-induced vibration of a circular cylinder by periodic velocity excitation Reviewed

    比江島慎二, 野村卓史

    土木学会論文集   ( 731 )   331 - 340   2003

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    In order to investigate the suppression mechanisms of the vortex-induced vibration of a circular cylinder by applying periodic velocity excitation to the flows around the cylinder, numerical simulations of the flows were carried out. The vortices induced by the periodic excitation with a high growth rate merge frequently behind the cylinder, and then these vortices change the unsteady lift phase. Such intermittent change of unsteady lift phase stabilizes the cylinder aerodynamics.

    DOI: 10.2208/jscej.2003.731_331

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  • Feedback control of vortex shedding around a bluff body by velocity excitation

    HIEJIMA, S, KUMAO, T, TANIGUCHI, T

    Abstracts of 12th Int. Conf. on Finite Element Methods in Flow Problem   97 - 97   2003

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  • Numerical study of the effect of periodic jet excitation on cylinder aerodynamic instability Reviewed

    S Hiejima, T Nomura

    WIND AND STRUCTURES   5 ( 2-4 )   141 - 150   2002.3

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    Numerical simulations based on the ALE finite element method are carried out to examine the aerodynamics of an oscillating circular cylinder when the separated shear flows around the cylinder are stimulated by periodic jet excitation with a shear layer instability frequency. The excitation is applied to the flows from two points on the cylinder surface. The numerical results showed that the excitation with a shear layer instability frequency can reduce the negative damping and thereby stabilize the aerodynamics of the oscillating cylinder. The change of the lift phase seems important in stabilizing the cylinder aerodynamics. The change of lift phase is caused by the merger of the vortices induced by the periodic excitation with a shear layer instability frequency, and the vortex merging comes from the high growth rate, the rapid increase of wave number and decrease of phase velocity for the periodic excitation in the separated shear flows.

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  • Feedback control of vortex shedding around a circular cylinder by velocity excitation Reviewed

    比江島慎二, 熊尾友憲, 谷口健男

    第17回風工学シンポジウム論文集   427 - 432   2002

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    DOI: 10.14887/kazekosymp.Symp17.0.73.0

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  • Feedback control of cavity noise by unsteady velocity excitation Reviewed

    比江島慎二, 大山忠敬, 谷口健男

    応用力学論文集   4   683 - 690   2001

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    DOI: 10.2208/journalam.4.683

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  • Linear stability analysis of separated shear flows around a circular cylinder Reviewed

    Shinji HIEJIMA, Takashi NOMURA

    Doboku Gakkai Ronbunshu   661 ( 661 )   151 - 161   2000

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    Language:Japanese   Publishing type:Research paper (scientific journal)   Publisher:Japan Society of Civil Engineers  

    In order to investigate the instability of the separated shear flows around a circular cylinder, a series of linear stability analyses was carried out. The analyses confirmed that the fluctuation with the transition wave frequency is enhanced most efficiently in the separated shear layer. It is also found that the vortices induced by such fluctuation frequently merge in the separated shear layer due to the increase of their wave number and the decrease of their phase velocity. Furthermore, these strong vortices change the flow instability just behind the cylinder and then alter the characteristics of the Karman vortex-shedding.

    DOI: 10.2208/jscej.2000.661_151

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  • Numerical study of the effect of periodic jet excitation on cylinder aerodynamic instability

    HIEJIMA, S, NOMURA, T

    Proc. 3rd International Symposium on Computational Wind Engineering   145 - 148   2000

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  • Numerical simulation of aerodynamic sound and sound sources on the body surface of rectangular cross-sections Reviewed

    比江島慎二, 松尾綾子, 谷口健男

    応用力学論文集   3   697 - 706   2000

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    DOI: 10.2208/journalam.3.697

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  • Numerical simulation of aeroacoustic sources in the flow around rectangular cross-sections Reviewed

    比江島慎二, 近藤敏治, 谷口健男

    応用力学論文集   2 ( 2 )   573 - 581   1999

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    DOI: 10.2208/journalam.2.573

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  • Numerical study of the effect of periodic velocity excitation on aerodynamic characteristics of an oscillating circular cylinder Reviewed

    S Hiejima, T Nomura

    INTERNATIONAL JOURNAL OF COMPUTATIONAL FLUID DYNAMICS   12 ( 3-4 )   269 - 278   1999

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    A finite element method based on ALE formulation has been adopted in order to examine the effect of periodic velocity excitation on the aerodynamic characteristics of an oscillating circular cylinder. Periodic excitation, which was placed on the cylinder surface, stimulated the separated shear layers around the cylinder, and numerical results showed that some excitation can reduce negative damping, which is caused by unsteady lift force, and thereby stabilize the aerodynamics of the cylinder. Furthermore, the change of lift phase caused by periodic excitation seems to be important in stabilizing the aerodynamics of the cylinder. The simulation also confirmed that periodic excitation can suppress the vortex-induced vibration of the cylinder.

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  • Numerical study on the effect of periodic velocity excitation on aerodynamic characteristics of an oscillating circular cylinder

    HIEJIMA, S, NOMURA, T

    Proc. 4th Japan-US Symposium on Finite Element Methods in Large-Scale Computational Fluid Dynamics   153 - 158   1998

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  • Linear stability analysis of the flows around a circular cylinder with periodic velocity excitation on the cylinder surface Reviewed

    比江島慎二

    第15回風工学シンポジウム論文集   179 - 184   1998

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  • Numerical study of the effect of periodic velocity excitation on aerodynamic stability of an oscillating circular cylinder Reviewed

    比江島慎二, 野村卓史

    応用力学論文集   1 ( 1 )   641 - 648   1998

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    DOI: 10.2208/journalam.1.641

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  • Numerical study on the suppression of the vortex-induced vibration of a circular cylinder by acoustic excitation

    S. Hiejima, T. Nomura, K. Kimura, Y. Fujino

    Journal of Wind Engineering and Industrial Aerodynamics   67-68   325 - 335   1997

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    In order to investigate the possibility of suppressing flow-induced vibration of structures by applying periodic excitation such as a sound wave to the flow around the structures, numerical simulations of the vortex-induced vibration of a circular cylinder were carried out when a periodic velocity excitation was applied to the flow at two locations on the cylinder surface. A FEM based on the ALE formulation was employed to simulate the vortex-induced vibration, with the time integration being carried out by the predictor corrector method. The results revealed that the excitation with the transition wave frequency is the most effective in changing the flow characteristics around the cylinder and the characteristics of the vortex-induced vibration. These changes appear to be caused by the promotion of the vortex growth in the early vortex formation behind the cylinder.

    DOI: 10.1016/S0167-6105(97)00083-4

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  • An experimental study on the control of the vortex-induced vibration of a circular cylinder by acoustic excitation Reviewed

    Shinji HIEJIMA, Kichiro KIMURA, Yozo FUJINO, Takashi NOMURA

    Structural Eng./Earthquake Eng., JSCE   13 ( 1 )   67s - 72s   1996

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  • An experimental study on the control of the vortex-induced vibration of a circular cylinder by applied sound

    HIEJIMA, S, KIMURA, K, NOMURA, T, FUJINO, Y

    Proc. 3rd Int. Colloquium on Bluff Body Aerodynamics & Applications   A II 5 - A II 8   1996

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  • Numerical simulation on the suppression of the vortex-induced vibration of a circular cylinder by monopoles on the cylinder surface Reviewed

    比江島慎二, 野村卓史, 木村吉郎, 藤野陽三

    第14回風工学シンポジウム論文集   187 - 192   1996

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  • An experimental study on aerodynamic noise from handrails of flat plate cascades

    KIMURA, K, FUJINO, Y, HIEJIMA, S

    Proc. 9th International Conference on Wind Engineering   5   49 - 56   1995

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  • AN EXPERIMENTAL STUDY ON THE CONTROL OF THE VORTEX-INDUCED VIBRATION OF A CIRCULAR CYLINDER BY ACOUSTIC EXCITATION Reviewed

    HIEJIMA Shinji, KIMURA Kichiro, FUJINO Yozo, NOMURA Takashi

    525 ( 525 )   171 - 179   1995

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    DOI: 10.2208/jscej.1995.525_171

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  • An experimental study on the effect of applied sound on the vortex-induced vibration of a circular cylinder

    HIEJIMA, S, KIMURA, K, FUJINO, Y

    Proc. 5th East Asia-Pacific Conference on Structural Engineering and Construction   1231 - 1236   1995

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  • Approximate solutions for natural frequencies and modes of stress ribbon bridges Reviewed

    比江島慎二, 藤野陽三

    構造工学論文集   39A   819 - 829   1993

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  • Passive control of traffic-induced vibration of viaduct Reviewed

    比江島慎二, 藤野陽三

    土木学会論文集   1993 ( 465 )   107 - 116   1993

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    As a passive control means to reduce traffic-induced vibration of viaducts caused by running vehicles, viscous dampers are studied. Complex eigenvalue analysis of a simple beam with two viscous dampers shows that high modal damping can be added to lower modes. An approximate formula for the modal damping ratio is derived. Through comparison with TMD and an active control method using simulation analysis, it was indicated that viscous dampers as well as the active control method are effective for traffic-induced girder vibration. However, it is also found that the three control methods considered here are not effective in reducing the dynamic reaction force in viaducts.

    DOI: 10.2208/jscej.1993.465_107

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  • An experimental study on aerodynamic sound generated from handrails of flat plate cascades

    KIMURA, K, FUJINO, Y, HIEJIMA, S

    US-Japan Bridge Workshop   1993

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MISC

  • 垂直軸風車の増速性能に及ぼす加速翼の両端エッジの役割について

    山根蒼太, 比江島慎二

    令和6年度土木学会中国支部研究発表会発表概要集   76   43 - 46   2024.6

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  • 垂直軸風車の性能向上のための加速翼の提案

    席定泰生, 比江島慎二

    令和6年度土木学会中国支部研究発表会発表概要集   76   47 - 50   2024.6

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  • 自律高空帆走発電においてカイトのロール開始タイミングが8の字飛行に与える影響

    茨木颯太, 比江島慎二

    第45回風力エネルギー利用シンポジウム   2023.12

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  • 自律高空帆走発電のための8の飛行制御法

    茨木颯太, 比江島慎二

    令和5年度土木学会中国支部研究発表会発表概要集   75   64 - 67   2023.6

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  • 自律高空帆走発電のカイト翼におけるテーパー形状の効果

    中居大地, 比江島慎二

    令和5年度土木学会中国支部研究発表会発表概要集   75   71 - 74   2023.6

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  • 風による観覧車ゴンドラの回転現象の発生メカニズムに関する実験

    出石悠人, 比江島慎二

    令和4年度土木学会中国支部研究発表会発表概要集   74   30 - 31   2022.5

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  • Performance estimation of the Autonomous Kite-Sailing Power Generation

    Shinji HIEJIMA

    217 - 220   2021.11

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  • 自律高空帆走発電に用いる浮体式Hydro-VENUSタービンの開発

    竹村一樹, 比江島慎二

    土木学会年次学術講演会講演概要集   76   2021.9

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  • 自律高空帆走発電による海洋発電立国 エネルギー自給率100%の達成と海洋空間の高度利用に向けて Invited

    比江島慎二

    クリーンエネルギー   29 ( 2 )   25 - 30   2020.2

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  • Numerical Analysis of Outdoor Sound Propagation considering Wind Effect

    JWE : Wind engineering, JAWE   39 ( 1 )   18 - 25   2014.1

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  • 水中振り子を利用した潮流・海流発電 Invited

    比江島慎二, 岡圭人, 林健一, 井上浩男, 椎名良治

    クリーンエネルギー   22 ( 6 )   31 - 36   2013.6

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  • Investigating Possibility of Hydroelectric Power Generation based on Flow Induced Vibration

    ( 206 )   14 - 18   2012.7

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  • 流体励起振動を利用した潮流発電のための基礎的実験

    比江島慎二

    「フラッターの制御と利用」に関する第1回シンポジウム梗概集, 2011   88 - 93   2011

  • Development of pendulum-type isolator of mini Doppler sodar for offshore wind observation

    KOZENI Shinji, HIEJIMA Shinji

    ( 119 )   265 - 266   2009.4

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  • Experimental investigation of characteristics of aerodynamic sound from flat plates

    Nakato Seiji, Kimura Kichiro, Ishihara Takeshi, Fujino Yozo, Hiejima Shinji

    NCTAM papers, National Congress of Theoretical and Applied Mechanics, Japan   55 ( 0 )   251 - 251   2006

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    Publisher:National Committee for IUTAM  

    Aerodynamic sound from flat plates such as handrail was tested in the low noise wind tunnel. Measurement data was arranged with peak frequency and sound pressure level according to the number of plates, the angle of attack and wind speed. Peak frequency increased step-by-step with the increase of wind speed. Sound pressure level was reduced with attachment on plate edge or blockage of space between plates. The mechanism of aerodynamic sound generation was considered from the change of characteristics.

    DOI: 10.11345/japannctam.55.0.251.0

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  • AM05-23-004 Characteristics of Aerodynamic Sound from Single and Multiple Rectangular Cylinders

    Nakato,Seiji, KIMURA,Kichiro, ISHIHARA,Takeshi, FUJINO,Yozo, HIEJIMA,Shinji

    2005   300   2005.9

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    Aerodynamic noise occurred from handrail of bridge or balcony in strong wind became problem. It is important to develop database of characteristics of aerodynamic sound from basic structural member such as rectangular cylinder. In this study, aerodynamic sound from single and multiple rectangular cylinder is investigated experimentally with low-noise wind tunnel. For aerodynamic sound from square cylinder, SPL is maximum at angle of attack 2°, minimum at 10°. For plate cascades, peak frequency increases step-by-step with the increase of wind speed and sound source is in leeward plate cascades mainly.

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  • Feedback Control of the Flow around a Rectangular Cylinder with Side Ratio of 4

    HIEJIMA Shinji, MIYOSHI Ataru

    ( 103 )   203 - 204   2005.4

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  • An experiment to suppress wind-induced vibration of a rectangular cylinder by pulsating jet from the leading edges

    NOMURA Takashi, OKADA Toshihiko, TAKAGI Kohei, METOKI Yukihiro, HIEJIMA Shinji

    ( 99 )   173 - 174   2004.4

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  • Numerical Simulation on Aerodynamic Noise Sources in the Flow around Rectangular Cross-Sections

    HIEJIMA Shinji, KONDO Toshiharu

    79   99 - 100   1999.4

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  • 加振円柱の空気力特性に及ぼす周期的湧き出し・吸い込みの影響

    比江島 慎二, 野村 卓史

    JWE : 日本風工学研究会誌   71   205 - 206   1997.4

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  • NUMERICAL STUDY ON THE SUPPRESSION OF THE VORTEX-INDUCED VIBRATION OF A CIRCULAR CYLINDER BY MONOPOLES ON THE CYLINDER SURFACE

    HIEJIMA Shinji, NOMURA Takashi, KIMURA Kichiro, FUJINO Yozo

    Proceedings of the conference on computational engineering and science   1 ( 1 )   389 - 392   1996.5

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Presentations

  • Hydro-VENUSを利用した次世代洋上風力発電/河川防災IoTシステム Invited

    比江島慎二

    次世代センサ協議会・海洋計測センサ技術研究会  2022.9.28 

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  • Kite-sailing offshore wind energy harvester Invited

    Shinji HIEJIMA

    USTP x SixERSJoint Symposium 2023  2023.11.28 

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  • 2050年カーボンニュートラル実現のための革新的洋上風力発電とDeepSky構想

    比江島慎二

    岡山大学新工学部発足記念シンポジウム  2021.9.29 

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    Language:Japanese   Presentation type:Symposium, workshop panel (nominated)  

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  • 次世代洋上風力発電によるDeepSky構想の実現に向けて Invited

    比江島慎二

    岡山東ロータリークラブ例会  2020.11.19 

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  • 振り子の流力振動を用いた革新的潮流・海流発電 Invited

    比江島 慎二

    SubSea Tech Japan 2018  2018.9.28 

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  • 瀬戸内海の潮流利用 Invited

    比江島 慎二

    資源エネルギーシンポジウム「地域の資源とエネルギー ~里山から里海まで~」  2017.7.24 

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  • 振り子式潮流発電Hydro-VENUSによる里海エネルギーの開発 Invited

    比江島 慎二

    日本船舶海洋工学会秋季講演会  2016.11.21 

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  • 振り子式潮流発電 -ハイドロヴィーナス- の開発 Invited

    比江島 慎二

    公益社団法人山陽技術振興会技術交流会  2015.10.1 

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  • 里海エネルギーの活用 ~Hydro-VENUS~ Invited

    比江島 慎二

    エイト日本技術開発講演会  2015.5.20 

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  • Hydro-VENUSについて Invited

    比江島 慎二

    エネルギーハーベスティングコンソーシアム  2015.3.23 

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  • 瀬戸内海エネルギーハーベスト構想 ~里海エネルギーの活用~ Invited

    比江島 慎二

    第3回環境・エネルギー技術事業化交流会 ~地域の里海を利活用した海洋再生可能エネルギーの普及に向けて~  2014.11.26 

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  • 流体励起振動による海洋エネルギーの活用 Invited

    比江島 慎二

    第12回日本流体力学会中四国・九州支部講演会  2014.6.21 

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  • 瀬戸内海の里海エネルギーの活用 Invited

    比江島 慎二

    岡山地区化学工学懇話会  2014.1.20 

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  • 流体励起振動の海洋エネルギーへの活用 Invited

    比江島 慎二

    日本ばね学会「復元力応用分科会」第16回講演会/日本機械学会第98回振動・音響研究会  2013.11.22 

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  • 流力振動の海洋エネルギーへの活用 Invited

    比江島 慎二

    第6回フラッター研究会セミナー  2013.7.25 

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  • 洋上風力の可能性と振り子式潮流発電の開発 Invited

    比江島 慎二

    平成25年度 佐賀環境フォーラム  2013.5.21 

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  • 瀬戸内海エネルギーハーベスト構想~里海エネルギーの活用~ Invited

    比江島 慎二

    エネルギー井戸端会議(Vol.6)  2013.3.22 

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  • 洋上風力エネルギー調査のための低コスト型風況観測装置の開発 Invited

    比江島 慎二

    平成24年度 中国地方建設技術開発交流会  2012.11.9 

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  • 自然エネルギーを活用したエネルギー耕作型文明の構築をめざして Invited

    比江島 慎二

    復建調査設計(株)全社技術講演会  2012.10.12 

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  • 自然エネルギーを活用したエネルギー耕作型文明の構築をめざして Invited

    比江島 慎二

    (社)日本技術士会中国本部 環境・生物工学・原子力放射線部会講演会  2012.8.18 

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  • 瀬戸内海の里海エネルギーの活用 Invited

    比江島 慎二

    (社)岡山県計量協会年会  2012.6.21 

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  • 瀬戸内海に眠る自然エネルギーの活用 Invited

    比江島 慎二

    おかやまエネルギーの未来を考える会(エネミラ)総会  2010.6.6 

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  • 瀬戸内海洋上ウィンドファーム構想 Invited

    比江島 慎二

    第4回産学官連携新産業創出研究会「オフショア風力発電のための洋上風況観測システムの開発研究」  2008.3.6 

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  • 瀬戸内海洋上ウィンドファーム構想 Invited

    比江島 慎二

    平成19年度 中国地方建設技術開発交流会  2007.10.18 

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  • 微小流速撹乱による物体周辺周期渦の制御 Invited

    比江島 慎二

    第12回計算数理工学フォーラム  2007.3.23 

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Industrial property rights

  • 運動体、運動体複合体、及び、エネルギー変換装置

    比江島慎二, 上田剛慈

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    Application no:特願2016-174490  Date applied:2016.9.7

    Patent/Registration no:特許6961865  Date registered:2021.10.18 

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  • Dynamo

    HIEJIMA Shinji, HAYASHI Kenichi

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    Application no:EP12817134.5  Date applied:2012.6.20

    Patent/Registration no:EP2738925B1  Date registered:2017.8.9 

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  • 発電機

    比江島慎二, 林健一

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    Application no:CN201280028577.2  Date applied:2012.6.20

    Patent/Registration no:CN103843237B  Date registered:2017.8.4 

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  • Dynamo with cloumnar oscillator

    HIEJIMA Shinji, HAYASHI Kenichi

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    Application no:US14/233555  Date applied:2012.6.20

    Patent/Registration no:US9347332B2  Date registered:2016.5.24 

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  • Dynamo

    HIEJIMA Shinji, HAYASHI Kenichi

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    Application no:AU2012288359  Date applied:2012.6.20

    Patent/Registration no:AU2012288359  Date registered:2015.9.10 

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  • 発電機

    比江島慎二, 林健一

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    Application no:特願2012-551412  Date applied:2012.6.20

    Patent/Registration no:特許5303686  Date registered:2013.6.28 

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  • 振動体制御装置および振動体制御方法

    比江島慎二, 林健一

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    Application no:特願2011-121170  Date applied:2011.5.31

    Patent/Registration no:特許5475719  Date registered:2014.2.14 

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Awards

  • ILS TOP100 STARTUPS

    2023.11   Innovation Leaders Summit 2023  

    Hydro-VENUS Co., L

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  • J-Startup WEST選定企業

    2023.10   経済産業省 中国経済産業局,(一社)中国地域ニュービジネス協議会  

    (株)ハイドロヴィーナス

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  • TRIBUS Investors Day マネックスベンチャーズ株式会社賞,住友商事賞,HAX賞

    2023.7   (株)リコー  

    (株)ハイドロヴィーナス

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  • NGAS-Accelerator Program 2023優秀賞

    2023.6   日本海ガス絆ホールディングス(NGAS)  

    (株)ハイドロヴィーナス

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  • Japan Wind Energy Association Paper Award

    2023.5   Japan Wind Energy Association   Proposal of Autonomous Kite-Sailing Power Generation and estimation of its energy harvesting performance

    Shinji HIEJIMA, Manami ENDO, Akihiro YAMAMOTO

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  • TRIBUS(トライバス)2022採択企業

    2022.10   (株)リコー  

    (株)ハイドロヴィーナス

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  • Plug and Play Japan Summer/Fall 2022 Batch採択企業

    2022.6   Plug and Play Japan (株)  

    (株)ハイドロヴィーナス

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  • 日本風工学会ベストペーパー賞

    2022.5   日本風工学会   回転振動翼を用いたギャロッピング発電のエネルギー取得性能に関する実験的及び理論的研究

    比江島慎二, 泉一希

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  • ビジネスプランコンテストおかやま2016奨励賞

    2017.1   岡山県産業振興財団   革新的な水流発電機ハイドロヴィーナスによる里海・里山エネルギーの開発

    比江島慎二

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  • 日本風力エネルギー学会論文賞

    2011.11   日本風力エネルギー学会   空力振動を利用した発電のための振動増幅法

    比江島慎二, 樋吉佑一

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  • 土木学会論文奨励賞

    2001.5   土木学会   微小流速撹乱を用いた空力弾性振動制御メカニズムに関する基礎的研究

    比江島慎二, 藤野陽三, 野村卓史, 木村吉郎

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    Country:Japan

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  • 日本風工学会研究奨励賞

    1998.5   日本風工学会   周期的な湧き出し・吸い込みによる円柱渦励振抑制に関する数値流体解析

    比江島慎二

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    Country:Japan

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Research Projects

  • 風力・水流発電の劇的な効率向上技術ーインフラIoT電源としての活用に向けてー

    2024.04 - 2026.03

    一般社団法人 中国建設弘済会  技術開発支援事業 

    比江島慎二

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  • 流体励起発電機用材料の耐久評価に関する指導

    2023.10 - 2023.12

    株式会社ブリヂストン 

    比江島慎二

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  • 流水発電機のスケールアップを目指した動作モデル構築

    2023.09 - 2024.08

    株式会社ハイドロヴィーナス 

    比江島慎二

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  • 空中風力発電のための凧自動制御飛行に関する研究

    2023.08 - 2024.03

    国立研究開発法人宇宙航空研究開発機構 

    比江島慎二

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  • 河川・流域における内水対策及び内水浸水予測に関する研究

    2023.05 - 2025.03

    国土交通省中国地方整備局 

    比江島慎二

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    Authorship:Coinvestigator(s) 

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  • 空中風力発電のための凧形状と制御方法の検討

    2022.11 - 2023.02

    国立研究開発法人宇宙航空研究開発機構 

    比江島慎二

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  • Development of kite flight control system for Autonomous Kite-Sailing Power Generation

    Grant number:22K04288  2022.04 - 2026.03

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (C)  Grant-in-Aid for Scientific Research (C)

    比江島 慎二

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    Authorship:Principal investigator 

    Grant amount:\4290000 ( Direct expense: \3300000 、 Indirect expense:\990000 )

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  • 自律高空帆走発電技術の開発

    2022.04 - 2023.03

    国立大学法人佐賀大学  海洋エネルギー研究所共同利用研究  特定研究D

    比江島慎二

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  • 空中風力発電におけるエネルギー取得性能の試算手法及びシステムの検討

    2021.12 - 2022.02

    国立研究開発法人宇宙航空研究開発機構 

    比江島慎二

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  • 自律高空帆走発電技術の開発

    2021.04 - 2022.03

    国立大学法人佐賀大学  海洋エネルギー研究所共同利用研究  特定研究D

    比江島慎二

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  • 水害予測センシング網構築のための低コストかつ外部電源不要の流速計の開発

    2021.03 - 2022.03

    Japan Science and Technology Agency  Adaptable and Seamless Technology Transfer Program through Target-driven R&D 

    Shinji Hiejima

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  • Proposal of Autonomous Kite-Sailing Power Generation and estimation of its energy harvesting performance

    Grant number:19K04579  2019.04 - 2022.03

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research  Grant-in-Aid for Scientific Research (C)

    Hiejima Shinji

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    Grant amount:\4420000 ( Direct expense: \3400000 、 Indirect expense:\1020000 )

    It is found that the lift and drag force of the Hydro-VENUS blades with semi-elliptical cross-section are higher than conventional airfoil blades. According to the analysis based on the blade element momentum theory, the Hydro-VENUS turbine can rotate both in the forward and reverse direction, and its start-up performance from stationary condition is relatively high. The performance of the Hydro-VENUS turbine is improved by installing the winglet to the tip of the blade. By developing the kite flight simulator coupled with a floating vessel where the Hydro-VENUS turbine is installed, the energy harvesting performance of the full-scale model of the Autonomous Kite-Sailing Power Generation is computed. Then the kite with semi-elliptical cross-section where the aspect ratio is six revealed high performances in energy harvesting.

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  • 落差の無い水流で発電するための振り子式流力振動発電の開発

    2017.10 - 2018.09

    Japan Science and Technology Agency  Adaptable and Seamless Technology Transfer Program through Target-driven R&D 

    比江島 慎二

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  • 革新的潮流発電による里海エネルギーの開発

    2017 - 2019

    中国建設弘済会  技術開発支援制度 

    比江島 慎二

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  • 里海エネルギー活用のための革新的潮流発電Hydro-VENUSの開発

    2015 - 2016

    NEDO  新エネルギーベンチャー技術革新事業 

    比江島 慎二

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  • 「水中振り子式」潮流発電における励振力の強化に関する研究

    2013.04 - 2016.03

    日本学術振興会  科研費 

    比江島 慎二

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  • 洋上風力エネルギー調査のための低コスト型風況観測装置の開発

    2011 - 2012

    中国建設弘済会  技術開発支援制度 

    比江島 慎二

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    Authorship:Principal investigator  Grant type:Competitive

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  • 「瀬戸内海洋上ウィンドファーム構想」実現のための洋上風況観測

    2010 - 2011

    福武学術文化振興財団  瀬戸内海文化研究・活動支援助成 

    比江島 慎二

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  • ウェイクギャロッピングを利用した新型風力発電の開発

    2009.04 - 2013.03

    日本学術振興会  科研費 

    比江島 慎二

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    Authorship:Principal investigator  Grant type:Competitive

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  • 舗装版切断機の騒音低減対策に関する研究

    2007 - 2009

    国交省中国地方整備局  中国技術事務所受託研究 

    比江島 慎二

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    Authorship:Principal investigator  Grant type:Competitive

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  • コンビナート連携型風力発電方式の提案とその優位性の定量的評価

    2006.04 - 2009.03

    日本学術振興会  科研費 

    比江島 慎二

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  • 瀬戸内海におけるコンビナート連携型風力発電方式の開発

    2006 - 2007

    中国電力技術研究財団  試験研究助成 

    比江島 慎二

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  • コスト削減を目指したヴァーチャル型技術開発法の提案

    2004 - 2005

    中国建設弘済会  技術開発支援制度 

    比江島 慎二

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  • 環境問題の数値シミュレーションに関する国際シンポジウム

    2004

    中国電力技術研究財団  国際交流活動助成 

    比江島 慎二

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    Authorship:Principal investigator  Grant type:Competitive

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  • 耐風性に配慮した多機能型遮音壁の開発

    2002.04 - 2005.03

    日本学術振興会  科研費 

    比江島 慎二

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  • 剥離せん断層を刺激する周期的な憤流による空力振動制御に関する基礎的研究

    Grant number:14655169  2002 - 2004

    日本学術振興会  科学研究費助成事業  萌芽研究

    野村 卓史, 比江島 慎二

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    Grant amount:\3800000 ( Direct expense: \3800000 )

    昨年度の研究によって,辺長比2の長方形角柱の前縁スリットから脈動噴流によって剥離せん断流を刺激すると,角柱振動との位相を適切に選ぶことによって,きわめて効果的に振動を抑制できることが明らかになった.噴流を脈動させずに吹かせ続けたときよりも効果的に振動が収まること,位相によっては逆に振動振幅が増えることがあること,も重要な知見であると考えている.本年度は,脈動噴流が剥離せん断流に与える作用を明らかにすることを主目的にして,角柱周辺気流の測定と可視化実験を実施した.
    角柱周辺気流の測定は,角柱を固定した状態,空力振動をさせている状態,および脈動噴流で振動が抑制された状態について,後流内に熱線流速計プローブを設置して計測した.計測した流速変動をスペクトル解析した結果,角柱を固定した状態ではストローハル数成分が卓越し,空力振動させている状態では,角柱・支持系の固有振動数成分が卓越しているのに対し,脈動噴流で振動が抑制された状態では,変動のパワーが極めて小さく,また小さなピークの周波数はストローハル数成分とも固有振動数成分とも異なるものであった.この結果から,脈動噴流で振動を抑制した状態では,後流の変動がかなり少ない気流になっていることが分かった.角柱側方の剥離せん断流そのものの測定もこの知見に対応するものであった.
    可視化実験は,上流からドライアイスの白煙を風路内に流し込み,レーザーシートを鉛直に当てて,角柱側方および後流の状況を観測した.その結果,振動時の後流に見られる角柱背後の巻き込みが,振動抑制時には低減していることが認められた.

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  • 微小撹乱を用いた周期渦の効率的制御法の開発

    2000.04 - 2002.03

    日本学術振興会  科研費 

    比江島 慎二

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  • 微小撹乱の付加による周期渦の効率的制御法の開発

    2000 - 2002

    中国電力技術研究財団  試験研究助成 

    比江島 慎二

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  • 3-dimesional finite element modeling for the orographic wind flow analysis using parallel computer

    Grant number:12555136  2000 - 2002

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research  Grant-in-Aid for Scientific Research (B)

    TANTIGUCHI Takeo, HIEJIMA Shinji, KASHIYAMA Kazuo

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    Grant amount:\8600000 ( Direct expense: \8600000 )

    The research is for the proposal of the mesh generation method of 3-dimensional finite element model of the orographic wind flow surrounding civil engineering structures like bridge and buildings using parallel computer, and following results are obtained: (1) The anlysis has to treat natural and artificial shapes, I.e, ground surface and buildings. The shape is created in computer by the triangulation of polygon obtained from TIN and CAD and their intersection in a same space. (2) The volume triangulation is then achieved for the 3-dirnonsional space surrounded by the triangles and the volume is replaced by a set of tetrahedral. (3) Final stage of the modeling is the mesh refinement of the set of tetrahedral, and this procedure consists of two stages; topological and geormetric improvement. The former changer the number of nodes and elements, and the latter only the position of nodes. For the modifiation of topology new tool was developed by using the Delaunay triangulation, and the modification of geometry is achieved by the Laplacian method, which relocates nodes to appropriate portion.
    The method proposed in this reseach work is based on 3-dimensional Delaunay triangulation, which accepts only the location of nodes, and, therefore, proposed method can create required finite element model when nodes are prepared on the surface of analysis domain. As far as real numbers like nodal coordinates are treated, nuumerical error may affect the final result, and improved Delaunay triangulation method is proposed in order to avoid the increase of numerical error through the triangulation.

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  • 剥離せん断層刺激による物体周辺流れの周期渦制御に関する基礎的研究

    1999 - 2001

    住友財団  基礎科学研究助成 

    比江島 慎二

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  • 音響撹乱を用いた構造物の空力弾性振動制御法に関する研究

    1997.04 - 1999.03

    日本学術振興会  科研費 

    比江島 慎二

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  • ニューラルネットワークによる構造物の地震時非線形履歴挙動の評価

    Grant number:08875090  1996 - 1997

    日本学術振興会  科学研究費助成事業  萌芽的研究

    松田 泰治, 比江島 慎二

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    Grant amount:\2300000 ( Direct expense: \2300000 )

    ニューラルネットワークは、人工知能研究の一分野で開発されたもので、生物の神経細胞の情報処理メカニズムを模倣したものである。本研究では、その優れたパターン認識能力に着目し、数学モデルにより定式化する手法を用いることなく、ニューラルネットワークを非線形履歴曲線直線モデリングへ適用する。さらに、構築したネットワークを動的応答解析の数値演算サブルーチンとして適用することで地震時における構造物の動的挙動を推定し、その有効性の評価を行う。平成8年度は高減衰積層ゴムを対象に慣性力を利用した動的載荷試験装置を作成し、それに実地震波(JMA KOBE NS)を入力して検証用のデータを取得した。また、ニューラルネットワークにより高減衰積層ゴムの正弦波載荷時の履歴曲線を学習させ、学習済ネットワークを数値演算サブルーチンとして適用し、動的応答解析を行った。その後、動的載荷試験結果とニューラルネットワークによる解析結果との比較検証を行った。その結果、非線形履歴曲線を解析に利用する際、ニューラルネットワークを用いることで、数学的手法を用いることなく直接モデリングすることが可能であることが確認された。また、典型的な履歴曲線を学習させたネットワークを数値演算サブルーチンとして地震応答解析に用いた場合、ネットワークによる推定は、実地震波に対する複雑な動的挙動を定性的、定量的に表現可能であることが確認された。

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  • Development of wind-resistant suspended membrane roof for rainproof dam construction

    Grant number:08555111  1996 - 1997

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research  Grant-in-Aid for Scientific Research (A)

    KIMURA Kichiro, HIEJIMA Shinji, MISHIMA Tetsuya, ABE Masato, NOMURA Takashi, FUJINO Yozo

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    Grant amount:\12800000 ( Direct expense: \12800000 )

    The suspended membrane roof for rainproof dam construction consists of a membrane that is supported by two parallel cables spanned between the banks. This roof is advantageous because it can be located according to the construction stage and it will not prevent the construction procedure. However, the divergence phenomenon is observed under wind speed of about 20 m/s due to its extremely light and flexible structure. Divergence occurs even under lower wind speed when the wind blows up. The objective of this study is to develop the suspended membrane roof system that withstands even the blow up wind.
    For the development of the wind-resistant membrane roof, it is essential to understand the divergence occurrence mechanism. Therefore we tried to develop an analytical procedure so that the coupled phenomenon of membrane motion and the wind forces can be solved using 2 dimensional computational fluid dynamics. Because the phenomenon is complicated where the wind force changes the membrane shape that results in the different wind forces, the analysis that couples large amplitude dynamical membrane motion and wind forces have not produced stable computational results yet. Then the static response that affects divergence which is dominant for the membrane stability is tried to be analyzed. By carefully considering the procedure how to couple the membrane motion and the wind forces, we developed the analytical procedure with which the equilibrium membrane shape with the wind force can be obtained. The obtained results qualitatively agreed with the previous experimental results.

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  • 自然風によって建設系構造物に生じる空力音の発生機構の解明

    1994.04 - 1996.03

    日本学術振興会  科研費 

    比江島 慎二

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Class subject in charge

  • Laboratory Work for Graduation Thesis (2024academic year) 1st-4th semester  - その他

  • Laboratory Work for Graduation Thesis (2024academic year) Other  - その他

  • Practice in Architectural Structure Design and Construction IA (2024academic year) Year-round  - その他

  • Practice in Architectural Structure Design and Construction IB (2024academic year) Year-round  - その他

  • Practice in Architectural Structure Design and Construction IIA (2024academic year) Year-round  - その他

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  • Data processing and practice A (2024academic year) 1st semester  - 水1~2

  • Data processing and practice B (2024academic year) Second semester  - 水1~2

  • Vibration Energy Design (2024academic year) Late  - その他

  • Environmental Vibrations II (2024academic year) Second semester  - 月3~5

  • Vibrational Mechanics and Exercise (2024academic year) 1st and 2nd semester  - 月3~5

  • Environmental Vibrations I (2024academic year) 1st semester  - 月3~5

  • Numerical Analysis and Exercise (2024academic year) 1st and 2nd semester  - 水1~2

  • Advanced Study (2024academic year) Other  - その他

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  • Seminar in Aseismic Design of Structures (2024academic year) Prophase  - その他

  • Steel Structure Design (2024academic year) Third semester  - 月2~4

  • Design of Steel Structure and Exercise (2024academic year) 3rd and 4th semester  - 月2~4

  • Laboratory Work for Graduation Thesis (2023academic year) Other  - その他

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  • Practice in Architectural Structure Design and Construction IB (2023academic year) special  - その他

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  • Practice in Architectural Structure Design and Construction IA (2023academic year) Year-round  - その他

  • Practice in Architectural Structure Design and Construction IB (2023academic year) Year-round  - その他

  • Data processing and practice A (2023academic year) 1st semester  - 水1~2

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  • Data processing and practice B (2023academic year) Second semester  - その他

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  • Vibration Energy Design (2023academic year) Late  - その他

  • Environmental Vibrations II (2023academic year) Second semester  - 月3~5

  • Vibrational Mechanics and Exercise (2023academic year) 1st and 2nd semester  - 月3~5

  • Environmental Vibrations I (2023academic year) 1st semester  - 月3~5

  • Environmental Vibrations I (2023academic year) 1st semester  - その他

  • Numerical Analysis and Exercise (2023academic year) 1st and 2nd semester  - 水1~2

  • Special Research (2023academic year) Other  - その他

  • Advanced Study (2023academic year) Other  - その他

  • Special Research (2023academic year) Year-round  - その他

  • Internship of Env. and Civil Engineering (2023academic year) special  - その他

  • Seminar in Environmental Vibration and Energy Engineering (2023academic year) Prophase  - その他

  • Seminar in Environmental Vibration and Energy Engineering (2023academic year) Late  - その他

  • Environmental Vibration Engineering (2023academic year) Prophase  - 水3~4

  • Environmental Vibration Engineering (2023academic year) Prophase  - 水3~4

  • Seminar in Aseismic Design of Structures (2023academic year) Prophase  - その他

  • Seminar in Aseismic Design of Structures (2023academic year) Late  - その他

  • Seminar in Aseismic Design of Structures A (2023academic year) Year-round  - その他

  • Seminar in Aseismic Design of Structures A (2023academic year) Prophase  - その他

  • Seminar in Aseismic Design of Structures A (2023academic year) Late  - その他

  • Seminar in Aseismic Design of Structures (2023academic year) Prophase  - その他

  • Steel Structure Design (2023academic year) Third semester  - 月2~4

  • Design of Steel Structure and Exercise (2023academic year) 3rd and 4th semester  - 月2~4

  • Seminar in Design of Steel Structures (2023academic year) Prophase  - その他

  • Seminar in Design of Steel Structures (2023academic year) Late  - その他

  • Laboratory Work for Graduation Thesis (2022academic year) 1st-4th semester  - その他

  • Laboratory Work for Graduation Thesis (2022academic year) Other  - その他

  • Atmospheric Environment (2022academic year) Fourth semester  - 水1~2

  • Practice in Architectural Structure Design and Construction IA (2022academic year) special  - その他

  • Practice in Architectural Structure Design and Construction IB (2022academic year) special  - その他

  • Practice in Architectural Structure Design and Construction IIA (2022academic year) special  - その他

  • Practice in Architectural Structure Design and Construction IIB (2022academic year) special  - その他

  • Data processing and practice A (2022academic year) 1st semester  - 水1~2

  • Data processing and practice B (2022academic year) Second semester  - 水1~2

  • Vibration Energy Design (2022academic year) Late  - その他

  • Environmental Vibrations II (2022academic year) Second semester  - 月3~5

  • Vibrational Mechanics and Exercise (2022academic year) 1st and 2nd semester  - 月3~5

  • Environmental Vibrations I (2022academic year) 1st semester  - 月3~5

  • Numerical Analysis and Exercise (2022academic year) 1st and 2nd semester  - 水1~2

  • Special Research (2022academic year) Other  - その他

  • Special Research (2022academic year) Year-round  - その他

  • Internship of Env. and Civil Engineering (2022academic year) special  - その他

  • Seminar in Environmental Vibration and Energy Engineering (2022academic year) Prophase  - その他

  • Seminar in Environmental Vibration and Energy Engineering (2022academic year) Late  - その他

  • Environmental Vibration Engineering (2022academic year) Prophase  - 水3~4

  • Seminar in Aseismic Design of Structures (2022academic year) Prophase  - その他

  • Seminar in Aseismic Design of Structures (2022academic year) Late  - その他

  • Seminar in Aseismic Design of Structures A (2022academic year) Prophase  - その他

  • Seminar in Aseismic Design of Structures A (2022academic year) Late  - その他

  • Steel Structure Design (2022academic year) Third semester  - 月2~4

  • Design of Steel Structure and Exercise (2022academic year) 3rd and 4th semester  - 月2~4

  • Seminar in Design of Steel Structures (2022academic year) Prophase  - その他

  • Seminar in Design of Steel Structures (2022academic year) Late  - その他

  • Laboratory Work for Graduation Thesis (2021academic year) 1st-4th semester  - その他

  • Laboratory Work for Graduation Thesis (2021academic year) Other  - その他

  • Laboratory Work for Graduation Thesis (2021academic year) Other  - その他

  • Laboratory Work for Graduation Thesis (2021academic year) 1st-4th semester  - その他

  • Data processing and practice (2021academic year) 1st-4th semester  - [第1学期]月7~8, [第2学期]月7~8, [第3学期]木1~2, [第4学期]木3~4

  • Data processing and practice (2021academic year) Other  - [第3学期]木1~2, [第4学期]木3~4, [第1学期]月7~8

  • Data processing and practice (2021academic year) Other  - [第3学期]木1~2, [第4学期]木3~4, [第1学期]月7~8

  • Data processing and practice B (2021academic year) Fourth semester  - 木3~4

  • Data processing and practice B (2021academic year) Fourth semester  - 木3~4

  • Vibration Energy Design (2021academic year) Late  - その他

  • Environmental Vibrations II (2021academic year) Third semester  - 水1~3

  • Environmental Vibrations II (2021academic year) Third semester  - 水1~3

  • Environmental Vibrations I (2021academic year) 1st semester  - 月2~4

  • Environmental Vibrations I (2021academic year) 1st semester  - 月2~4

  • Special Research (2021academic year) Year-round  - その他

  • Internship of Env. and Civil Engineering (2021academic year) special  - その他

  • Internship of Env. and Civil Engineering (2021academic year) special  - その他

  • Seminar on Environmental vibration and energy engineering (2021academic year) Prophase  - その他

  • Seminar in Environmental Vibration and Energy Engineering (2021academic year) Late  - その他

  • Seminar on Environmental vibration and energy engineering (2021academic year) Late  - その他

  • Seminar in Environmental Vibration and Energy Engineering (2021academic year) Prophase  - その他

  • Environmental Vibration and Energy Engineering (2021academic year) Prophase  - 水3~4

  • Steel Structure Design (2021academic year) Fourth semester  - 火5~7

  • Steel Structure Design (2021academic year) Fourth semester  - 火5~7

  • Seminar in Design of Steel Structures (2021academic year) Prophase  - その他

  • Seminar in Design of Steel Structures (2021academic year) Late  - その他

  • Seminar in Design of Steel Structures (2021academic year) Late  - その他

  • Seminar in Design of Steel Structures (2021academic year) Prophase  - その他

  • Laboratory Work for Graduation Thesis (2020academic year) Other  - その他

  • Laboratory Work for Graduation Thesis (2020academic year) Other  - その他

  • Data processing and practice (2020academic year) 1st semester  - 月7,月8

  • Data processing and practice (2020academic year) 1st-4th semester  - [第1学期]月7,月8, [第2学期]木4,木5, [第3学期]木4,木5, [第4学期]木4,木5

  • Data processing and practice B (2020academic year) Fourth semester  - 木4,木5

  • Data processing and practice B (2020academic year) Fourth semester  - 木4,木5

  • Vibration Energy Design (2020academic year) Late  - その他

  • Environmental Vibrations II (2020academic year) Third semester  - 木1,木2,木3

  • Environmental Vibrations II (2020academic year) Third semester  - 木1,木2,木3

  • Environmental Vibrations I (2020academic year) 1st semester  - 月4,月5,月6

  • Environmental Vibrations I (2020academic year) 1st semester  - 月4,月5,月6

  • Special Research (2020academic year) Year-round  - その他

  • Introduction to Environmental & Civil Engineering (2020academic year) 1st and 2nd semester  - [第1学期]水3, [第2学期]火6

  • Introduction to Environmental & Civil Engineering A (2020academic year) 1st semester  - 水3

  • Introduction to Environmental & Civil Engineering B (2020academic year) Second semester  - 火6

  • Seminar on Environmental vibration and energy engineering (2020academic year) Prophase  - その他

  • Seminar in Environmental Vibration and Energy Engineering (2020academic year) Late  - その他

  • Seminar on Environmental vibration and energy engineering (2020academic year) Late  - その他

  • Seminar in Environmental Vibration and Energy Engineering (2020academic year) Prophase  - その他

  • Environmental Vibration and Energy Engineering (2020academic year) Late  - 金4,金5

  • Steel Structure Design (2020academic year) Fourth semester  - 水1,水2,水3

  • Steel Structure Design (2020academic year) Fourth semester  - 水1,水2,水3

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Media Coverage

  • 富山で水防システム実験 ハイドロヴィーナスなど Newspaper, magazine

    (株)瀬戸内海経済レポート  週刊Vison岡山  2023.11.20

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  • 「海の力」を新たなエネルギー源に! ハイドロヴィーナス <岡山大> Internet

    株式会社ストライク  M&A Online  大学発ベンチャーの「起源」  2023.11.4

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  • 岡山大発新興など、水害対策の実証 Newspaper, magazine

    日本経済新聞社  日本経済新聞  2023.10.31

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  • 水害対策、富山で実証 日本海ラボなど データ、AI分析 Newspaper, magazine

    日本経済新聞社  日本経済新聞  2023.10.26

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  • 用水で発電、流速チェック 日本海ラボなど富山で実験 Newspaper, magazine

    株式会社北國新聞社  富山新聞  2023.10.26

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  • 災害予測DX化、富山の用水で実証事業 日本海ラボと岡山大発ベンチャー Newspaper, magazine

    株式会社北日本新聞社  北日本新聞  2023.10.26

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  • “AIを活用した用水管理”を実証…水位や流速を測定してデータ分析し氾濫予測などにいかす TV or radio program

    富山テレビ放送株式会社  富山テレビ  2023.10.25

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  • 日本海ガス系と岡山大発スタートアップ、水害対策で実験 Newspaper, magazine

    日本経済新聞社  日本経済新聞  2023.10.25

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  • 独自器具で流速や水位を計測 用水管理のDX化に期待 TV or radio program

    株式会社チューリップテレビ  チューリップテレビ  2023.10.25

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  • NGAS-Accelerator Program採択スタートアップのハイドロヴィーナスが,富山県・牛ヶ首用水におけるDXを活用した実証事業をスタート Internet

    読売新聞社  読売新聞オンライン  2023.10.24

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  • 香川用水を活用しDX実証推進/水資源機構・岡山大学・ハイドロヴィーナス 排水効率化や氾濫減災化へ Newspaper, magazine

    水道産業新聞社  水道産業新聞  2022.11.10

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  • 水資源機構/最先端センシング技術活用した実証試験実施、香川用水で観測機器設置 Newspaper, magazine

    日刊建設工業新聞  2022.11.8

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  • AIで水路管理の高度化検討/水機構香川用水/産官学協力し実証試験 Newspaper, magazine

    建通新聞  2022.10.28

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  • 岡山大発新興が実証試験 河川流量 自己発電で計測 AIで災害リスクも予測 低コスト、山間部でも活躍 Newspaper, magazine

    日本経済新聞  2022.10.25

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  • AI水害分析 実験開始 岡山大ベンチャー 被害防止へ河川監視 Newspaper, magazine

    山陽新聞  2022.10.20

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  • 大学発ベンチャー企業など 香川用水でDX実証試験 TV or radio program

    山陽放送  RSKイブニングニュース  2022.10.19

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  • 河川の水の変化をAIで予測 TV or radio program

    NHK  まとめてゆう6  2022.10.19

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  • 電池を使わず河川の状況伝える TV or radio program

    瀬戸内海放送  KSB News Park  2022.10.19

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  • ゲート制御など 香川用水“AI活用”実証実験 TV or radio program

    西日本放送  RNC news every  2022.10.19

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  • ゲート制御など 香川用水“AI活用”実証実験 TV or radio program

    西日本放送  RNCニューススポット  2022.10.19

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  • AIで施設管理高度化/水門開閉操作を支援/水機構香川ら Newspaper, magazine

    建設通信新聞  2022.10.17

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  • AIで水害予測へ 岡山大、ベンチャー近く実証実験 Newspaper, magazine

    山陽新聞  2022.8.9

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  • 大企業の協業先候補に選定 企業支援世界大手が白羽の矢 ハイドロヴィーナス Newspaper, magazine

    株式会社瀬戸内海経済レポート  週刊Vison岡山  2022.7.4

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  • 比江島慎二さん「私の岩国」ロケ風景 Internet

    岩国市  岩国市ホームページ「私の岩国」  2022.5.13

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  • ソーシャルネットワークがつなげる同級生の輪 Internet

    岩国市  岩国市ホームページ「私の岩国」  2022.5.6

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  • 豊かな里山としての愛宕山、ライフワークとなった研究と岩国との関係 Internet

    岩国市  岩国市ホームページ「私の岩国」  2022.4.29

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  • 海洋エネルギーの道に導いてくれた瀬戸内海 Internet

    岩国市  岩国市ホームページ「私の岩国」  2022.4.22

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  • Hydro-VENUSの誕生 Internet

    岩国市  岩国市ホームページ「私の岩国」  2022.4.15

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  • 橋梁工学の道に導いてくれた錦帯橋、そして再生可能エネルギーへ Internet

    岩国市  岩国市ホームページ「私の岩国」  2022.4.8

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  • 次世代の洋上風力発電としての自律高空帆走発電の提案とDeepSky構想 Internet

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  • ハイドロヴィーナスの渦エネルギーを使った潮流発電に注目 Newspaper, magazine

    経済リポート  2021.3.1

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  • 凧を使った洋上風力発電 TV or radio program

    RSKラジオ  中四国ライブネット「めざせSDGs 夢未来 研究室」  2020.11.22

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  • 河川流速から流量計測 ハイドロヴィーナス装置開発 Newspaper, magazine

    山陽新聞  2020.11.14

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  • 気流や水流による物体の振動からエネルギーを取り出す研究 TV or radio program

    RSKラジオ  朝耳らじお5.5,技術の森  2020.10.28

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  • ハイドロヴィーナス 河川の状況即時に把握 潮流発電を災害対策に Newspaper, magazine

    (株)瀬戸内海経済レポート  週刊Vison岡山  2020.3.25

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  • 自律高空帆走発電による海洋発電立国 Newspaper, magazine

    クリーンエネルギー  Vol.29, No.2 (通巻No.331), pp.25-30  2020.2.10

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Academic Activities

  • 土木学会論文集査読

    Role(s):Peer review

    土木学会  2021.11

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  • 日本機械学会論文集査読

    Role(s):Peer review

    日本機械学会  2021

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  • マリンチャレンジプログラム2020 中国・四国大会審査員

    Role(s):Review, evaluation

    日本財団,リバネス  2020.8.23

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    Type:Scientific advice/Review 

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  • 土木学会論文集査読

    Role(s):Peer review

    土木学会  2020

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  • 第26回風工学シンポジウム査読2

    Role(s):Peer review

    日本風工学会等  2020

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    Type:Peer review 

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  • 第26回風工学シンポジウム査読1

    Role(s):Peer review

    日本風工学会等  2020

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    Type:Peer review 

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  • 構造工学論文集Vol.67A査読

    Role(s):Peer review

    土木学会  2020

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