福井 智宏 略歴

1997年4月 東北大学工学部機械知能系 入学
2001年3月 東北大学工学部機械電子工学科 卒業
2001年4月 東北大学工学部機械電子工学科 学部研究生
2002年3月      同 修了
2002年4月 東北大学大学院工学研究科機械電子工学専攻博士前期課程 入学
2004年3月      同 修了
2004年4月 東北大学大学院工学研究科バイオロボティクス専攻博士後期課程 入学
2007年3月      同 修了
2007年4月 東北大学大学院工学研究科電子工学専攻 助教
2008年9月 京都工芸繊維大学機械システム工学部門 助教

          現在に至る

主な研究テーマ
  • 大動脈弁まわりの血流シミュレーション
  • 流体−固体連成解析による脈波伝播現象のバイオメカニクス
  • 動脈硬化の発症・進展シミュレーション
  • 抗力型風車まわりの数値シミュレーション
研究業績等

 【学術論文】

  1. Tomohiro Fukui, Hiroaki Asama, Manabu Kimura, Toshiyuki Itoi, and Koji Morinishi, "Influence of Geometric Changes in the Thoracic Aorta due to Arterial Switch Operations on the Wall Shear Stress Distribution", Open Biomedical Engineering Journal, vol. 11, pp. 9-16, 2017.
  2. Koji Morinishi and Tomohiro Fukui, "Parallel Computation of Turbulent Flows using Moment base Lattice Boltzmann Method", International Journal of Computational Fluid Dynamics, vol. 30, no. 5, pp. 363-369, 2016.
  3. 浅間浩明,福井智宏,木村学,糸井利幸,森西晃嗣,“大血管転換術が胸部大動脈の血行力学におよぼす影響の数値解析”,ながれ,Vol. 34,no. 2,pp. 167-174,2015.
  4. Muhammad Izham, Tomohiro Fukui, and Koji Morinishi, "Simulation of Three-dimensional Homogeneous Isotropic Turbulence using the Moment-based Lattice Boltzmann Method and LES-Lattice Boltzmann Method", Journal of Fluid Science and Technology, vol. 9, no. 4, pp. 1-13, 2014.
  5. 浅間浩明,福井智宏,木村学,糸井利幸,森西晃嗣,“大血管転換術後の胸部大動脈における血液流れの数値解析”,日本VR医学会誌,Vol. 12,no. 1,通巻12号,pp. 1-8,2014.
  6. Tomohiro Fukui and Koji Morinishi, "Influence of Vortices in the Sinus of Valsalva on Local Wall Shear Stress Distribution", International Journal of Life Science and Medical Research, vol. 3, no. 3, pp. 94-102, 2013.
  7. Tomohiro Fukui, Kim H. Parker, and Takami Yamaguchi, "Pulse Wave Propagation in Large Blood Vessels based on Fluid-solid Interactions Methods", Single and two-Phase Flows on Chemical and Biomedical Engineering, Bentham eBook, pp. 460-471, 2012.
  8. Koji Morinishi and Tomohiro Fukui, "An Eulerian Approach for Fluid-structure Interaction Problems", Computers & Fluids vol. 65, pp. 92-98, 2012.
  9. Muhammad Izham, Tomohiro Fukui, and Koji Morinishi, "Application of Regularized Lattice Boltzmann Method for Incompressible Flow Simulation at High Reynolds Number and Flow with Curved Boundary", Journal of Fluid Science and Technology, vol. 6, no. 6, pp. 812-822, 2011.
  10. Koji Morinishi and Tomohiro Fukui, "An Eulerian Approach for Fluid and Elastic Structure Interaction Problems", Computational Fluid Dynamics 2010, pp. 707-714, 2011.
  11. Takeo Matsumoto, Tomohiro Fukui, Toshihiro Tanaka, Naoko Ikuta, Toshiro Ohashi, Kiichiro Kumagai, Hiroji Akimoto, Koichi Tabayashi, and Masaaki Sato, "Biaxial Tensile Properties of Thoracic Aortic Aneurysm Tissues", Journal of Biomechanical Science and Engineering, vol. 4, no. 4, pp. 518-529, 2009.
  12. Tomohiro Fukui, Kim H. Parker, Yohsuke Imai, Ken-ichi Tsubota, Takuji Ishikawa, Shigeo Wada, and Takami Yamaguchi, "Effect of Wall Motion on Arterial Wall Shear Stress", Journal of Biomechanical Science and Engineering, vol. 2, no. 2, pp. 58-68, 2007.
  13. Tomohiro Fukui, Kim H. Parker, Ken-ichi Tsubota, Shigeo Wada, and Takami Yamaguchi, "Differentiation of Stenosed and Aneurysmal Arteries by Pulse Wave Propagation Analysis based on a Fluid-Solid Interaction Computational Method", Technology and Health Care, vol. 15, pp. 79-90, 2007.
  14. Takami Yamaguchi, Takuji Ishikawa, Ken-ichi Tsubota, Yohsuke Imai, Masanori Nakamura, and Tomohiro Fukui, "Computational Blood Flow Analysis -New Trends and Methods", Journal of Biomechanical Science and Engineering, vol. 1, no. 1, pp. 29-50, 2006.
  15. Tomohiro Fukui, Takeo Matsumoto, Toshihiro Tanaka, Toshiro Ohashi, Kiichiro Kumagai, Hiroji Akimoto, Koichi Tabayashi, and Masaaki Sato, "In vivo Mechanical Properties of Thoracic Aortic Aneurysmal Wall Estimated from in vitro Biaxial Tensile Test", Bio-Medical Materials and Engineering, vol. 15, pp. 295-305, 2005.

 

 【国際会議発表】

  1. Tomohiro Fukui, Misa Kawaguchi, and Koji Morinishi, "Effective viscosity and its spatial variation of semidilute suspensions by parallel computing", 29th International Conference on Parallel Computational Fluid Dynamics (Parallel CFD 2017), Glasgow, Scotland, 15 - 17 May, 2017, Conference proceedings, pp. 137-138.
  2. Tomohiro Fukui, Misa Kawaguchi, Atsuhide Kitagawa, Kenichi Funamoto, and Toshiyuki Hayase, "Computational and Experimental Studies on the Blood Cells Behavior in Microcitculation", 13th International Conference on Flow Dynamics (ICFD 2016), Sendai, Japan, 10 - 12 October, 2016, Conference proceedings, pp. 82-83.
  3. Tomohiro Fukui and Koji Morinishi, "Fundamental Study on Deep Bed Filtration by Regularized Lattice Boltzmann Method", 28th International Conference on Parallel Computational Fluid Dynamics (Parallel CFD 2016), Kobe, Japan, 9 - 12 May, 2016, Conference proceedings, pp. 172-173.
  4. Tomohiro Fukui and Koji Morinishi, "2-D Numerical Study on the Depth Filtration by Virtual Flux Method", IV International Conference on Particle-Based Methods. Fundammentals and Applications, Barcelona, Spain, 28 - 30 September, 2015.
  5. Tomohiro Fukui, Hiroaki Asama, Manabu Kimura, Toshiyuki Itoi, and Koji Morinishi, "Influence of Geometric Change of the Thoracic Aorta due to Arterial Switch Operation on Wall Shear Stress Distribution", 27th International Conference on Parallel Computational Fluid Dynamics (Parallel CFD 2015), Montreal, Canada, 17 - 20 May, 2015, Conference proceedings, pp. 202-203.
  6. Tomohiro Fukui and Koji Morinishi, "Blood Flow Simulation in the Aorta related to Initiation and Progression of the Aortic Valve Stenosis", The 10th International Conference for Mesoscopic Methods in Engineering and Science (ICMMES 2013), Oxford, UK, 22 - 26 July, 2013, A conference proceedings is stored in CD-ROM.
  7. Tomohiro Fukui and Koji Morinishi, "Blood Flow Simulation in the Aorta passing through the Aortic Orifice by Virtual Flux Method", 3rd South-East European Conference on Computational Mechanics (SEECCM III), Kos Island, Greece, 12 - 14 June, 2013, A conference proceedings is stored in CD-ROM.
  8. Tomohiro Fukui and Koji Morinishi, "Blood Flow Simulation in the Aorta with Aortic Valves using Regularized Lattice Boltzmann Method with LES Model", Fluid Structure Interaction 2013, Gran Canaria, Spain, 10 - 12 April, 2013, Fluid Structure Interaction VII, pp. 97-107.
  9. Tomohiro Fukui and Koji Morinishi, "Numerical Simulation of Blood Flows in the Aorta with Aortic Valves by Virtual Flux Method", European Congress on Computational Methods in Applied Science and Engineering (ECCOMAS 2012), Vienna, Austria, 10 - 14 September, 2012, A conference proceedings is stored in CD-ROM.
  10. Tomohiro Fukui and Koji Morinishi, "Aortic Valve Oscillation due to Vortices in the Sinus of Valsalva by Virtual Flux Method", The 8th KSME - JSME Thermal and Fluids Engineering Conference, Incheon, Korea, 18 - 21 March, 2012, A conference proceedings is stored in CD-ROM.
  11. Tomohiro Fukui and Koji Morinishi, "Influence of Sinus of Valsalva on Aortic Valve Movements by Lattice Boltzmann Method", ASME - JSME - KSME Joint Fluid Engineering Conference 2011, Hamamatsu, Japan, 24 - 29 July, 2011, A conference proceedings is stored in CD-ROM.
  12. Tomohiro Fukui and Koji Morinishi, "Numerical Simulation of Blood Flows around Aortic Valve Leaflets by Virtual Flux Method", The 2nd International Conference on Mathematical and Computational Biomedical Engineering - CMBE2011, Washington DC, USA, 30 March - 1 April, 2011, Conference proceedings, pp. 176-179.
  13. Tomohiro Fukui and Koji Morinishi, "Numerical Simulation of Blood Flows in a Vassel with Valves based on Virtual-Flux Methods", The 5th European Conference on Computational Fluid Dynamics ECCOMAS CFD 2010, Lisbon, Portugal, 5 - 8 September, 2010, A conference proceedings is stored in CD-ROM.
  14. Tomohiro Fukui, Kim H. Parker, Yohsuke Imai, Ken-ichi Tsubota, Takuji Ishikawa, Shigeo Wada, and Takami Yamaguchi, "Wall Shear Stress Change due to Arterial Wall Stiffness; Fluid-Solid Interactions Study", ASME 2007 Summer Bioengineering Conference, Colorado, USA, 20 – 24 June 2007, A conference proceedings is stored in CD-ROM.
  15. Tomohiro Fukui, Kim H. Parker, Ken-ichi Tsubota, Shigeo Wada, and Takami Yamaguchi "The Effect of Wall Motion on Arterial Wall Shear Stress", The 5th World Congress of Biomechanics, Munich, Germany, 29 July - 4 August 2006, A conference proceedings is stored in CD-ROM.
  16. Tomohiro Fukui, Shigeo Wada, Ken-ichi Tsubota, and Takami Yamaguchi, "Differentiation of Vascular Diseases by Pulse Wave Propagation Analysis; Fluid-solid Interaction Study", ASME 2005 Summer Bioengineering Conference, Colorado, USA, 23 - 26 June 2005, A conference proceedings is stored in CD-ROM.
  17. Tomohiro Fukui, Ken-ichi Tsubota, Shigeo Wada, and Takami Yamaguchi, "A Preliminary Study of the Pulse Wave Velocity by Fluid-solid Coupled Computational Analysis", The 4th World Congress on Medical Physics and Biomedical Engineering, Sydney, Australia, 5 - 8 August 2003, A conference proceedings is stored in CD-ROM.
  18. Tomohiro Fukui, Takeo Matsumoto, Toshihiro Tanaka, Toshiro Ohashi, Kiichiro Kumagai, Hiroji Akimoto, Koichi Tabayashi, and Masaaki Sato "Biaxial Tensile Properties of Aortic Aneurysm Tissues under Equibiaxial Stress", The 4th World Congress of Biomechanics, Calgary, Canada, 4 - 9 August 2002, A conference proceedings is stored in CD-ROM.

 

 【国内会議発表】

  1. 福井智宏,川口美沙,森西晃嗣,“仮想流束法を用いた微小血管内流れに関する数値シミュレーション”,第64回レオロジー討論会,pp. 214-215,豊中,2016年10月.
  2. 福井智宏,森西晃嗣,“仮想流束法による大動脈弁まわり流れの力学的評価”,可視化情報学会 全国講演会2012,Vol. 32,No. 2,pp. 147-148,姫路,2012年10月.
  3. 福井智宏,Kim H. Parker, 山口隆美,“脈波伝播の流体-固体連成シミュレーション”,第17回 計算工学講演会,Vol. 17 (CD-ROM),京都,2012年5月.
  4. 福井智宏,森西晃嗣,“仮想流束法を用いた弁まわりの血液流れ解析”,日本機械学会 2010年度 年次大会,No. 10-1,Vol. 6,pp. 121-122,名古屋,2010年9月.
  5. 福井智宏,森西晃嗣,“仮想流束法を用いた大動脈弁まわりの血流解析”,第23回数値流体力学シンポジウム,pp. 204,仙台,2009年12月.
  6. 福井智宏,長谷川英之,金井浩,“ブロックマッチング法を用いた血管長軸方向速度推定に関する基礎研究”,pp. 51,郡山,2008年8月.
  7. 福井智宏, Kim H. Parker, 山口隆美,“脈波伝搬に伴う血管壁面せん断応力の変化 ー流体−固体連成計算解析ー”,第53回超音波エレクトロニクス研究会,No. 53-2,仙台,2007年10月.
  8. 福井智宏, 長谷川英之, 金井浩,“計算力学解析による内圧負荷時における血管壁の局所ひずみ分布に関する基礎研究”,日本超音波医学会 東北地方大会 第34回学術集会,pp. 7,仙台,2007年9月.
  9. 福井智宏, Kim H. Parker, 山口隆美“Effect of Arterial Wall Stiffness on Wall Shear Stress during Pulse Wave Propagation”,平成19年度 電気関係学会東北支部連合大会,pp. 277,弘前,2007年8月.
  10. 福井智宏, Kim H. Parker, 山口隆美,“脈波伝搬に伴う血管壁の振動が壁面せん断応力に与える影響”,電子情報通信学会 応用音響研究会(EA),Vol. 107,No. 187,pp. 47-50,仙台,2007年8月.
  11. 福井智宏, Kim H. Parker, 今井陽介, 坪田健一, 石川拓司, 和田成生, 山口隆美,“脈波伝播に伴う壁せん断応力変化の流体−固体連成解析”,日本機械学会 第19回流体力学講演会,No. 06-9,pp. 499-500,名古屋,2006年11月.
  12. 福井智宏, 和田成生, 坪田健一, 山口隆美,“流体−固体連成計算解析による脈波伝播の計算バイオメカニクス的検討”,第1回21世紀COE8大学拠点合同シンポジウム,pp. 48,東京,2005年3月.
  13. 福井智宏, 和田成生, 坪田健一, 山口隆美,“脈波伝播速度は血管の性状のみを反映するか?”,日本機械学会 第15回バイオフロンティア講演会,No. 04-39,pp. 139-140,山口,2004年11月.
  14. 福井智宏, 坪田健一, 和田成生, 山口隆美,“動脈瘤が脈波伝播現象に与える影響の流体力学的考察”,日本機械学会 2004年度 年次大会,No. 04-1,Vol. 6,pp. 193-194,札幌,2004年9月.
  15. 福井智宏, 坪田健一, 和田成生, 山口隆美,“流体−固体連成計算解析による脈波伝播速度の検討”,日本機械学会 2003年度 年次大会,No. 3-01,Vol. 7,pp. 21-22,徳島,2003年8月.
  16. 福井智宏, 坪田健一, 和田成生, 山口隆美,“流体−固体連成計算解析による脈波伝播速度の評価”,第42回日本エム・イー学会大会,Vol. 41,pp. 362,札幌,2003年6月.
  17. 福井智宏, 坪田健一, 和田成生, 山口隆美,“流体−固体連成解析による脈波伝播速度の考察”,日本機械学会東北支部第38期総会・講演会,No. 031-1,pp. 100-101,仙台,2003年3月.
  18. 福井智宏, 松本健郎, 熊谷紀一郎, 秋元弘治, 田林晄一, 大橋俊朗, 佐藤正明,“瘤内部位を考慮したヒト大動脈瘤片の二軸引張特性の計測”,第12回バイオエンジニアリング学術講演会・秋季セミナー,No. 01-27,pp. 195-196,名古屋,2001年10月.

 

 【受賞】

  1. 平成20年度 電気学会優秀論文発表賞B,“ブロックマッチング法を用いた血管長軸方向速度推定に関する基礎研究”,電気学会,2009年4月.
  2. Honorable Mention for MS Student Paper Competition Biofluids and Heat Transfer Category, "Differentiation of Vascular Diseases by Pulse Wave Propagation Analysis; Fluid-solid Interaction Study", ASME, June 2005.

 

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