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| ???org.dspace.app.webui.jsptag.ItemTag.dcfield??? | Value | Language |
|---|---|---|
| dc.contributor.advisor | 林宗岳 | zh_TW |
| dc.contributor.advisor | Tsung-Yueh Lin | en |
| dc.contributor.author | 李珍邑 | zh_TW |
| dc.contributor.author | Chen-I Lee | en |
| dc.date.accessioned | 2025-07-02T16:09:30Z | - |
| dc.date.available | 2025-07-03 | - |
| dc.date.copyright | 2025-07-02 | - |
| dc.date.issued | 2025 | - |
| dc.date.submitted | 2025-06-18 | - |
| dc.identifier.citation | 淨零路徑與關鍵戰略. (2024). 環境部氣候變遷署. https://www.cca.gov.tw/affairs/response-policies/net-zero/2039.html
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Experimental and Numerical Study of the Depth Effect on the First Order and Slowly Varying Motions of a Floating Body in Bichromatic Waves. International Conference on Offshore Mechanics and Arctic Engineering. Fonseca, N., Pessoa, J., Mavrakos, S., Boulluec, M. L. (2011). Experimental and numerical investigation of the slowly varying wave exciting drift forces on a restrained body in bi-chromatic waves. Ocean Engineering, 38, 2000–2014. Pessoa, J., Fonseca, N. (2015). Second-order low-frequency drift motions of a floating body calculated by different approximation methods. Journal of Marine Science and Technology, 20, 357–372. Shao, Y. and Faltinsen, O. (2014). A numerical study of the second-order wave excitation springing by a higher-order boundary element method. Ocean Engineering, 6, 1000-1013. You, J. and Faltinsen, O. (2015). A numerical investigation of second-order difference-frequency forces and motions of a moored ship in shallow water. Journal of Ocean Engineering and Marine Energy, 1, 157-179. Kristiansen T. (2010). Model tests with moored ship in shallow water waves. Marintek report, No. 580115.03.01 Simos, A. N., Ruggeri, F., Watai, R. A., Souto-Iglesias, A., Lopez-Pavon, C. (2018). Slow-drift of a floating wind turbine: An assessment of frequency-domain methods based on model tests, Renewable Energy, 116, 133-154. Li, H., Bachynski-Polić, E. E. (2021). Analysis of difference-frequency wave loads and quadratic transfer functions on a restrained semi-submersible floating wind turbine. Ocean Engineering, 232, 109165. Pijfers, J. G. L., Brink, A. W. (1977). Calculated Drift Forces Of Two Semisubmersible Platform Types In Regular And Irregular Waves. Offshore Technology Conference, 155-164. Denise, J. P. F., Heaf, N. J. (1979). A Comparison Between Linear And Non-Linear Response Of A Proposed Tension Leg Production Platform. Offshore Technology Conference, 1743-1754. Standing, R. G., Dacunha, N. M. C., Marten, R. B. (1981). Mean wave drift forces: theory and experiment, National Maritime Institute, Report No. R124. Havelock, T. H. (1940). The pressure of water waves upon a fixed obstacle. Royal Society of London, 175, 409-421 Chakrabarti, S. K. (1984). Steady drift force on vertical cylinder – viscous vs. potential. Applied Ocean Research, 6, 73–82. Shyam Kumar, M. B., Vengadesan, S. (2012). Influence of Rounded Corners on Flow Interference Due to Square Cylinders Using Immersed Boundary Method. American Society of Mechanical Engineers. Liu, M., Xiao, L., Yang, L. (2015). Experimental investigation of flow characteristics around four square-cylinder arrays at subcritical Reynolds numbers. International Journal of Naval Architecture and Ocean Engineering, 7, 906-919. Nguyen V. L., Nguyen V. L., Duong, T. T., V. D. (2021). Characteristics of the flow around four cylinders of various shapes, Ocean Engineering, 238, 109690. Yang, H. B., Yang, W. L., Yang, T. (2020). Experimental investigation of flow around a square cylinder with very small aspect ratios. Ocean Engineering, 214, 107732. Ahmad, S., Ul, I. S., Nazeer G. (2022). Numerical investigation of Strouhal number discontinuity and flow characteristics around single rectangular cylinder at low aspect ratios and Reynolds numbers. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 43, 315. Guo, T., Wu, W.-L., Tian, F.-B., Luo, Z., & Zhang, Y. (2023). Numerical study on the hydrodynamic characteristics of three cylinders with different cross sections at various angles. Social Science Research Network, 4520904. Dan Zhao, D., Han, N., Goh, E., Cater, J., Reinecke, A. (2019). Offshore wind turbine aerodynamics modelling and measurements. Wind Turbines and Aerodynamics Energy Harvesters, 373-400. Subbulakshmi, A., Verma, M., Keerthana, M., Sasmal, S., Harikrishna, P., Kapuria, S. (2022). Recent advances in experimental and numerical methods for dynamic analysis of floating offshore wind turbines — An integrated review. Renewable and Sustainable Energy Reviews. 164, 112525. Cooley, J. W. and Tukey, J. W. (1965). An Algorithm for the Machine Computation of the Complex Fourier Series. Mathematics of Computation, 19, 297-301. Tom, N., Robertson, A., Jonkman, J., Wendt, F., & Böhm, M. (2019). Bichromatic wave selection for validation of the difference-frequency transfer function for the OC6 validation campaign. International Offshore Wind Technical Conference. 蘇富丞. (2023). TaidaFloat半潛式浮臺耐海性能試驗之研究. 國立臺灣大學工學院工程科學及海洋工程學系學位論文. Lee, F.E., Xue, H.C., Lin, T.Y. (2025). MODIFICATION FOR IRREGULAR WAVE GENERATION SYSTEM IN NTU TOWING TANK. The 37th Taiwan Society of Naval Architects and Marine Engineers, 103-109. | - |
| dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/97494 | - |
| dc.description.abstract | 浮動式風力發電平台之運動行為受波浪影響顯著,進而影響風力發電機之發電效率,以及整體系統的穩定性與安全性。本研究針對半潛式浮動平台進行縮尺模型試驗,以波浪激振力試驗探討平台在規則波與拍頻波作用下之波浪負荷,並分析波浪激振力。
本研究所使用之浮台外型,為臺灣大學團隊依據5 MW風力發電機所設計之半潛式平台(臺大浮台)的1/100幾何縮尺模型進行。由於試驗水槽尺寸及造波設備之限制,無法產生極低頻率波浪,因此除規則波試驗外,亦以兩組頻率接近之規則波疊加,使其相互干涉產生低頻拍頻波浪進行試驗。試驗條件涵蓋七種規則波頻率與二十一種拍頻波組合,分別分析一階波浪激振力及差頻波浪激振力。 此外,本研究亦將試驗結果與數值模擬進行比較以驗證數據之可靠性,並探討其中差異,分析非線性波浪效應對浮台行為之影響。結果顯示非線性效應在不同方向及不同頻率下具有不同影響程度,此外亦發現差頻波浪激振力對浮台所受激振力影響顯著。因此差頻波浪負荷應作為浮台設計與動態分析時的重要考量因素之一,有助於預估浮式風力發電系統於實海域中之受力狀況,進而提升整體系統之穩定性與可靠性。 | zh_TW |
| dc.description.abstract | The motion of floating offshore wind turbine platforms is strongly influenced by waves, which affect power generation efficiency, stability, and safety. This study investigates wave exciting forces of a 1/100 scaled semi-submersible platform, TaidaFloat, designed by National Taiwan University for a 5 MW turbine. Experiments are conducted under regular and bichromatic wave conditions to analyze the wave exciting force.
The experiments include 7 regular wave frequencies and 21 combinations of bichromatic waves, with analyses focusing on first-order wave exciting forces and difference-frequency wave exciting forces induced by regular and bichromatic waves. The experimental results are compared with numerical simulations to compare the reliability of the data and to identify discrepancies. These comparisons are used to investigate the effects of nonlinear wave behavior on the motion of the platform. The results show that nonlinear wave effects vary depending on the degree of freedom and wave frequency, and that the difference-frequency components have a significant impact on the excitation forces acting on the platform. Therefore, the difference-frequency wave exciting forces should be regarded as a critical factor in the design and dynamic analysis of floating platforms, as it plays an essential role in predicting the wave-induced loads on floating offshore wind systems in real sea conditions, thereby enhancing the overall stability and reliability of the system. | en |
| dc.description.provenance | Submitted by admin ntu (admin@lib.ntu.edu.tw) on 2025-07-02T16:09:30Z No. of bitstreams: 0 | en |
| dc.description.provenance | Made available in DSpace on 2025-07-02T16:09:30Z (GMT). No. of bitstreams: 0 | en |
| dc.description.tableofcontents | 口試委員會審定書 I
誌謝 II 摘要 III ABSTRACT IV 符號表 XI 第一章、緒論 1 1.1研究背景與動機 1 1.2文獻回顧 3 1.3研究目的 5 1.4論文架構 5 第二章、方法 6 2.1縮尺律 6 2.2頻散關係 7 2.3拍頻波 9 2.4波浪激振力 11 2.4.1莫里森方程 11 2.4.2規則波波浪激振力 12 2.4.3拍頻波波浪激振力 12 2.5傅立葉轉換 13 第三章、試驗設置 15 3.1縮尺模型 15 3.1.1模型製作 15 3.1.2坐標系定義 16 3.2試驗環境 18 3.3量測儀器 19 3.4波浪率定 22 3.5試驗設置 25 3.6試驗條件 27 3.7試驗程序 27 第四章、結果與討論 28 4.1一階波浪激振力 28 4.2規則波之差頻波浪激振力 40 4.3拍頻波之差頻波浪激振力 43 第五章、結論與建議 71 5-1結論 71 5-2建議 72 參考文獻 73 | - |
| dc.language.iso | zh_TW | - |
| dc.subject | 半潛式浮台 | zh_TW |
| dc.subject | 拍頻波 | zh_TW |
| dc.subject | 波浪激振力 | zh_TW |
| dc.subject | 縮尺實驗 | zh_TW |
| dc.subject | 浮動式離岸風力發電 | zh_TW |
| dc.subject | Scaled model experiment | en |
| dc.subject | Semi-submersible platform | en |
| dc.subject | Bichromatic wave | en |
| dc.subject | Offshore wind power | en |
| dc.subject | Wave exciting force | en |
| dc.title | 半潛式浮動平台於拍頻波浪作用下之波浪負荷試驗 | zh_TW |
| dc.title | Experimental Study on Wave Loads on a Semi-Submersible Platform under Bichromatic Waves | en |
| dc.type | Thesis | - |
| dc.date.schoolyear | 113-2 | - |
| dc.description.degree | 碩士 | - |
| dc.contributor.oralexamcommittee | 蔡進發;鍾承憲 | zh_TW |
| dc.contributor.oralexamcommittee | Jing-Fa Tsai;Cheng-Xian Zhong | en |
| dc.subject.keyword | 浮動式離岸風力發電,半潛式浮台,縮尺實驗,波浪激振力,拍頻波, | zh_TW |
| dc.subject.keyword | Offshore wind power,Semi-submersible platform,Scaled model experiment,Wave exciting force,Bichromatic wave, | en |
| dc.relation.page | 75 | - |
| dc.identifier.doi | 10.6342/NTU202501193 | - |
| dc.rights.note | 同意授權(限校園內公開) | - |
| dc.date.accepted | 2025-06-19 | - |
| dc.contributor.author-college | 工學院 | - |
| dc.contributor.author-dept | 工程科學及海洋工程學系 | - |
| dc.date.embargo-lift | 2025-07-03 | - |
| Appears in Collections: | 工程科學及海洋工程學系 | |
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| ntu-113-2.pdf Access limited in NTU ip range | 12.96 MB | Adobe PDF |
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