| 吉田 茂雄(よしだ しげお) | データ更新日:2024.03.05 |
教授 /
応用力学研究所
附属再生可能流体エネルギー研究センター
| 1. | Shigeo Yoshida,M. Fekry, Influence of Excitation by Idling Rotor on Wind Turbine Ultimate Loads in Storm Conditions, energies, https://doi.org/10.3390/en17051030, 17, 5, 2024.02. |
| 2. | Yutaka Hara, Ayato Miyashita, Shigeo Yoshida, Numerical Simulation of the Effects of Blade–Arm Connection Gap on Vertical–Axis Wind Turbine Performance, energies, https://doi.org/10.3390/en16196925, 16, 19, 2023.10. |
| 3. | Amira Elkodama, Amr Ismaiel, A. Abdellatif, S. Shaaban, Shigeo Yoshida, Mostafa A. Rushdi, Control Methods for Horizontal Axis Wind Turbines (HAWT): State-of-the-Art Review, energies, 2023, 2023.09. |
| 4. | Mohamed Elhesasy, Tarek N. Dief, Mohammed Atallah, Mohamed Okasha, Mohamed M. Kamra, Shigeo Yoshida, Mostafa A. Rushdi,, Non-Linear Model Predictive Control Using CasADi Package for Trajectory Tracking of Quadrotor, Energies, https://doi.org/10.3390/en16052143, 16, 5, 2023.01. |
| 5. | Yingyi Liu, Changhong Hu, Makoto Sueyoshi, Shigeo Yoshida, Hidetsugu Iwashita, Masashi Kashiwagi, Motion Response Characteristics of a Kyushu-University Semi-Submersible Floating Wind Turbine with Trussed Slender Structures: Experiment vs. Numerical Simulation, Ocean Engineering, 10.1016/j.oceaneng.2021.109078, 232, 109078, 2021.07. |
| 6. | Mustafa Rushdi, Shigeo Yoshida, Koichi Watanabe, Yuji Ohya, Machine learning approaches for thermal updraft prediction in windsolar tower systems, Renewable Energy, https://doi.org/10.1016/j.renene.2021.06.033, 177, 1001-1013, 2021.06. |
| 7. | Shigeo Yoshida, Masataka Motoyama, Peter Jamieson, Koji Matsuoka, Diffuser Total Efficiency Using Generalized Actuator Disc Model and Its Maximization Method, Energies, https://doi.org/10.3390/en14040813, 14, 813, 16-1, 2021.02. |
| 8. | Mohamed Said Ahmed Fekry Abdelmaksoud, Shigeo Yoshida, Aeroelastic Numerical Simulation of a Magnetically Levitated Horizontal Axis Wind Turbine, Sustainable Energy Technologies and Assessments, https://doi.org/10.1016/j.seta.2020.100899, 43, 100899, 2021.02.  |
| 9. | Diaa Emad, Mohamed A. Fanni, Abdelfatah M. Mohamed, Shigeo Yoshida, Low-Computational-Cost Technique for Modeling Macro Fiber Composite Piezoelectric Actuators Using Finite Element Method, Materials, https://doi.org/10.3390/ma14154316, 14, 4316, 1-31, 2021.02. |
| 10. | Shigeo Yoshida, Dynamic Stall Model for Tower Shadow Effects on Downwind Turbines and Its Scale Effects , energies, 10.3390/en13195237 , 1-19, Energies 2020, 13, 5237, 2020.10. |
| 11. | Amr Ismaiel, Shigeo Yoshida, Aeroelastic Analysis for Side-Boom of a Coplanar Twin-Rotor Wind Turbine, International Review of Aerospace Engineering, https://doi.org/10.15866/irease.v13i4.18355, 14, 4, 2020.10. |
| 12. | Hongzhong Zhu, Shigeo Yoshida, Disturbance Observer-Based Torsional Vibration Damper for Variable-Speed Wind Turbines, IFAC Journal of Systems and Control, https://doi.org/10.1016/j.ifacsc.2020.100112, 14, 100112, 1-9, 2020.09. |
| 13. | Mostafa Rushdi, Tarek Dief, Shigeo Yoshida, Roland Schmehl, Towing Test Data Set of the Kyushu University Kite System, data, https://doi.org/10.3390/data5030069, 5, 69, 1-18, 2020.08. |
| 14. | Mostafa Rushdi, Ahmad Rushdi, Tarek Dief, Amr Halawa, Shigeo Yoshida, Roland Schmehl, Power Prediction of Airborne Wind Energy Systems Using Multivariate Machine Learning, energies, 10.3390/en13092367, 13, 2367, 1-23, 2020.05. |
| 15. | Tarek Dief, Uwe Fechner, Roland Schmehl, Shigeo Yoshida, Mostafa Rushdi, Adaptive Flight Path Control of Airborne Wind Energy Systems, energies, https://doi.org/10.3390/en13030667, 13, 3, 2020.02. |
| 16. | Omar Ibrahim, Shigeo Yoshida, Masahiro Hamasaki, Ao Takada, Wind Turbine Wake Modeling in Accelerating Wind Field: A Preliminary Study on a Two-Dimensional Hill, fluids, doi:10.3390/fluids4030153, 4, 153, 1-16, 2019.08. |
| 17. | Hiromu Kakuya, Shigeo Yoshida, Iku Sato, Tomoaki Utsunomiya, A Study on the Platform-Pitching Vibration of Floating Offshore Wind Turbines Based on Classical Control Theory, Wind Engineering, DOI: 10.1177/0309524X19862761, 1-22, 2019.07. |
| 18. | Hiromu Kakuya, Shigeo Yoshida, Iku Sato, Tomoaki Utsunomiya, Proposal for a Lower Limit Control of a Generator’s Torque Based on the Nacelle Wind Speed and Demonstration Results Using a Full-scale Spar-type Floating Offshore Wind Turbine, Wind Engineering, 10.1177/0309524X19862754, 2019.07. |
| 19. | Yutaka Hara, Naoki Horita, Shigeo Yoshida, Hiromichi Akimoto, Takahiro Sumi, Numerical Analysis of Effects of Arms with Different Cross-Sections on Straight-Bladed Vertical Axis Wind Turbine, energies, doi:10.3390/en12112106, 12, 2106, 1-24, 2019.06. |
| 20. | Amr Ismaiel, Shigeo Yoshida, Aeroelastic Analysis of a Coplanar Twin-Rotor Wind Turbine, energies, doi:10.3390/en12101881, 12, 1881, 1-21, 2019.05. |
| 21. | M. Fekry, Abdelfatah M. Mohamed, Mohamed Fanni, Shigeo Yoshida, A Comprehensive Performance Assessment of the Integration of Magnetic Bearings with Horizontal Axis Wind Turbine, Journal of Mathematics and Computers in Simulation, 2019.02. |
| 22. | Shigeo Yoshida, Kazuyuki Fujii, Masahiro Hamasaki, Ao Takada, Effect of Rotor Thrust on the Average Tower Drag of Downwind Turbines, energies, https://doi.org/10.3390/en12020227, 12, 2, 227-241, 2019.01. |
| 23. | Yingyi Liu, Shigeo Yoshida, Hiroshi Yamamoto, Akinori Toyofuku, Guanghua He, Shunhan Yang, Response Characteristics of the DeepCwind Floating Wind Turbine Moored by a Single-Point Mooring System, applied science, 10.3390/app8112306, 8, 2306, 2018.11. |
| 24. | Honzhong Zhu, Makoto Sueyoshi, Changhong Hu, Shigeo Yoshida, A Study on a Floating Type Shorouded Wind Turbine: Design, Modeling and Analysis, Renewable Energy, DOI: 10.1016/j.renene.2018.09.028, 2018.09. |
| 25. | Shigeo Yoshida, Combined Blade-Element Momentum - Lifting Line Model for Variable Loads of Downwind Turbine Towers, energies, doi:10.3390/en11102521, 11, 2521, 1-18, 2018.09. |
| 26. | Omar Ibrahim, Shigeo Yoshida, Experimental and Numerical Studies of a Horizontal Axis Wind Turbine Performance over a Steep 2D Hill, Evergreen, https://doi.org/10.5109/1957496, Volume 5, Issue 3, pp. 12-21, 2018.09, [URL]. |
| 27. | Yingyi Liu, Shigeo Yoshida, Chanhong Hu, Makoto Sueyoshi, Liang Sun, Junlian Gao, Peiwen Cong, Guanghua He, A Reliable Open-source Package for Performance Evaluation of Floating Renewable Energy Systems in Coastal and Offshore Regions, Energy Conversion and Management, https://doi.org/10.1016/j.enconman.2018.08.012, 174, 15, 516-536, 2018.08. |
| 28. | Amr Halawa, Matias Sessarego, Wen Zhong Shen, Shigeo Yoshida, Numerical Fluid-Structure Interaction Study on the NREL 5MW HAWT, Journal of Physics Conference Series, 2018.06. |
| 29. | Yutaka Hara, Kotaro Tagawa, Shigenori Saito, Keisuke Shioya, Takeshi Ono, Kenji Makino, Kazutoshi Toba, Takakazu Hirobayashi, Yousuke Tanaka, Kazuo Takashima, Susumu Sasaki, Kengo Nojima, Shigeo Yoshida, Development of a Butterfly Wind Turbine with Mechanical Over-Speed Control System, Designs, doi:10.3390/designs2020017, 2, 2, 1-25, 2018.06. |
| 30. | Amr Ismaiel, Shigeo Yoshida, Study of Turbulence Intensity Effect on the Fatigue Lifetime of Wind Turbines, Evergreen, 5, 1, 25-32, 2018.03. |
| 31. | Siti Toha, Shigeo Yoshida, Hongzhong Zhu, Torsional Vibration Reduction with Augmented Inverse Model-based Controller in Wind Turbine Drivetrain, Procedia Computar Science, 10.1016/j.procs.2017.01.211, 105, 203-208, 2017.12. |
| 32. | Hiromu Kakuya, Takashi Shiraishi, Shigeo Yoshida, Tomoaki Utsunomiya, Iku Sato, Experimental Results of Floating Platform Vibration Control with Mode Change Function Using Full-scale Spar-type Floating Offshore Wind Turbine, Wind Engineering, 10.1177/0309524X17737336, October, 2017.10. |
| 33. | Tarek Dief, Uwe Fechner, Roland Schemehl, Shigeo Yoshida, System Identification, Fuzzy Control, and Simulation Results for Fixed Length Tether of Kite Power System, Wind Energy Science Discussions, 2017.06. |
| 34. | Uli Goltenbott, Yuji Ohya, Shigeo Yoshida, Peter Jamieson, Aerodynamic Interaction of Diffuser Augmented Wind Turbines in Multi-Rotor System, Renewable Energy, 10.1016/j.renene.2017.05.14, 2017.05. |
| 35. | Tarek Dief, Shigeo Yoshida, System Identification and Adaptive Control of Mass-Varying Quad-Rotor, Evergreen, 4, 58-66, 2017.03. |
| 36. | Amr Halawa, B Elhadidi, Shigeo Yoshida, POD & MLSM Application on DU96-W180 Wind Turbine Airfoil, Evergreen, 4, 1, 36-43, 2017.03. |
| 37. | Yutaka Hara, Shohei Kogo, Katsuhiro Takagaki, Makoto Kawanishi, Takahiro Sumi, Shigeo Yoshida, Experimental and Numerical Studies on the Possibility of Duct-Flow Power Generation Using a Butterfly Wind Turbine, International Journal of Fluid Machinery and Systems, http://dx.doi.org/10.5293/IJFMS.2017.10.1.019, 10, 1, 2017.01. |
| 38. | 原 豊, 斎藤 栄徳, 塩谷 啓介, 塩崎 明, 西小野 寛明, 奥谷 将裕, 三嶋 一生, 川端 俊亮, 吉田 茂雄, バタフライ垂直軸風車の過回転抑制機構(Over-speed Control System for Vertical Axis Butterfly Wind Turbine), 日本風力エネルギー学会論文集, 40, 1, 9-16, 2017.01. |
| 39. | Shigeo Yoshida, Uli Goltenbott, Yuji Ohya, Peter Jamieson, Coherence Effects on the Power and Tower Loads of a 7 × 2 MW Multi-Rotor Wind Turbine System, energies, 2016.09. |
| 40. | Yingyi Liu, Ying Gou, Bin Teng, Shigeo Yoshida, An Extremely Efficient Boundary Element Method for Wave Interaction with Long Cylindrical Structures Based on Free-Surface Green's Function, Jouanal of Computation, 2016.09. |
| 41. | Shigeo Yoshida, In-Plane Self-Excitation of Two-Bladed Horizontal Axis Wind Turbine Rotors Due to Blade Elasticity and Gravity, Wind Engineering, 10.1177/0309524X16650064, 2016.05. |
| 42. | Tarek N. Dief, Shigeo Yoshida, System Identification for Quad-rotor Parameters Using Neural Network, Evergreen, 6-11, 2016.03. |
| 43. | Liu Yingyi, Shigeo Yoshida, An Extension of the Generalized Generalized Actuator Disc Theory for Aerodynamic Analysis of the Diffuse-Augmented Wind Turbines, Energy, 93, 1852-1859, 2015.11. |
| 44. | 宇都宮 智昭, 吉田 茂雄, 佐藤 郁, 飛永 育男, 2MWスパー型浮体式洋上風力発電施設の構造設計について, 土木学会, 71, 2, 126-131, 2015.09. |
| 45. | Tarek N. Dief, Shigeo Yoshida, Review, Modeling and Classical Controller of Quad Rotor, International Journal of Computer Science and Information Technology & Security (IJCSITS), 5, 6, 314-319, 2015.08. |
| 46. | 宇都宮 智昭, 佐藤 郁, 吉田 茂雄, 白石 崇, 石田 茂資, スパー型浮体式洋上風車の実海域実験(台風襲来時の挙動), 風力エネルギー, 39, 1, 1-5, 2015.05. |
| 47. | 吉田 茂雄, 吉澤 壮, 烏谷 隆, 大屋 裕二, 松島 啓二, 船舶のエネルギー収支に対する水平軸風車ならびにセクターマネジメントの効果, 太陽エネルギー, 40, 4, 55-60, 2014.07. |
| 48. | 國分健太郎, 石田茂資, 二村正, 吉田 茂雄, 宇都宮智昭, 浮体式洋上風力発電実証事業における小規模試験機の模型実験, 風力エネルギー, 37, 3, 55-60, 2013.11. |
| 49. | Shigesuke Ishida, Kentarou Kokubun, Tadashi Nimura, Tomoaki Utsunomiya, Iku Sato, Shigeo Yoshida, At-sea Experiment of a Hybrid Spar Type Offshore Wind Turbine, Proceedings of 32nd International Conference on Ocean, Offshore and Arctic Engineering, 2013.06. |
| 50. | Tomoaki Utsunomiya, Iku Sato, Shigeo Yoshida, Hiroshi Ookubo, Dynamic Response Analysis of a Floating Offshore Wind Turbine During Severe Typhoon Event, Proceedings of 32nd International Conference on Ocean, Offshore and Arctic Engineering, 2013.06. |
| 51. | Tomoaki Utsunomiya, Shigeo Yoshida, Hiroshi Ookubo, Iku Toda, Shigesuke Ishida, Dynamic Analysis of a Floating Offshore Wind Turbine Under Extreme Environmental Conditions, Journal of Offshore Mechanics and Arctic Engineering , 10.1115/1.4025872, 136, 2013.03. |
| 52. | Kentarou Kokubun, Shigesuke Ishida, Tadashi Nimura, Toshiki Chujo, Shigeo Yoshida, Tomoaki Utsunomiya, Model Experiment of a SPAR Type Offshore Wind Turbine in Storm Condition, Proceedings of 31st International Conference on Ocean, Offshore and Arctic Engineering, OMAE2012-83993, 2012.06. |
| 53. | Shigeo Yoshida, Variable Speed-Variable Pitch Controllers for Aero-Servo-Elastic Simulations of Wind Turbine Support Structures, JSME, J.Fluid Science and Technology, 10.1299/jfst.6.300, 6, 3, 300-312, 2011.11. |
| 54. | 吉田茂雄, 宇都宮智昭, スパー型浮体式洋上風車の動特性に対するロータ位置の影響, 風力エネルギー, 34, 3, 108-115, 2010.11. |
| 55. | 関田欣治, 大久保寛, 吉田茂雄, 北勝利, スパー型浮体を用いた洋上風力発電施設の係留検討について, 土木学会土木海洋開発論文集, 25, 377-382, 2009.12. |
| 56. | Shigeo Yoshida, Nacelle Yaw Measurement of Downwind Turbines in Complex Terrains, Windtech International, Nov, 2008.07. |
| 57. | 清木荘一郎, 吉田茂雄, ダウンウィンド風車のナセル風速計による乱流強度計測, 風力エネルギー, 32, 3, 140-145, 2008.07. |
| 58. | 吉田茂雄, 清木荘一郎, ダウンウィンド風車の荷重等価タワーシャドウモデリング, 日本機械学会論文集, 73, 370B, 1273-1279, 2007.06. |
| 59. | 吉田茂雄, 遺伝的アルゴリズムによる風車タワー最適化手法, 太陽エネルギー, 33, 3, 55-62, 2007.05. |
| 60. | 吉田茂雄, 2MW風車の疲労荷重データベース, 風力エネルギー, 31, 4, 123-128, 2007.02. |
| 61. | Shigeo Yoshida, Wind Turbine Tower Optimization Method Using Genetic Algorithm, Wind Enegineering, 30, 6, 453-470, 2006.11. |
| 62. | Shigeo Yoshida, Performance of Downwind Turbines in Complex Terrains, Wind Enegineering, 30, 6, 487-502, 2006.06. |
| 63. | 吉田茂雄, 複雑地形におけるダウンウィンド風車の性能優位性, 太陽エネルギー, 32, 4, 75-80, 2006.06. |
| 64. | 吉田茂雄, 坂本潤哉, 可変速ピッチ制御風車のμロバスト制御, 風力エネルギー, 29, 2, 84-91, 2005.08. |
| 65. | 吉田茂雄, 加藤裕司, 小野勉, 複雑地形における発電量推算精度を向上させる三次元的発電量計算法, 風力エネルギー, 29, 2, 75-83, 2005.06. |
| 66. | 越岡康弘, 谷泰寛, 吉田茂雄, 超音速境界層 安定性と遷移予知, ながれ, 16, 456-459, 1997.12. |
| 67. | 吉田茂雄, 中野欣也, 塩沢信秋, 超音速における境界層遷移の可視化について, 日本航空宇宙学会誌, 44, 509, 360-364, 1996.12. |
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