MULTI-OBJECTIVE OPTIMIZATION AND SENSITIVITY ANALYSIS FOR SEISMIC RESPONSE OF COMPOSITE STRUCTURAL WIND TURBINE SUPPORT STRUCTURES

被引：0

作者：

Horiguchi, Shinsei ^{[1
]}

Tomizawa, Tetsuya ^{[2
]}

机构：

[1] Graduate School of Science and Technology, Meiji Univ

[2] Dept. of Architecture, School of Science and Technology, Meiji Univ.

来源：

Journal of Structural and Construction Engineering | 2024年 / 89卷 / 826期

关键词：

Composite structure; Multi-objective optimization; Response spectrum method; Seismic response; Sensitivity analysis; Wind turbine support structure;

D O I：

10.3130/aijs.89.1355

中图分类号：

学科分类号：

摘要：

Composite structural wind turbine support structures are one useful means of increasing the size of wind turbine installations. However, there are still no examples in Japan, and it is unclear to what extent each design variable affects the seismic response. Therefore, this study attempts to quantitatively evaluate the influence of each design variable on the seismic response using the response spectrum method through multi-objective optimization and through sensitivity analysis. Furthermore, a method is proposed to apply the obtained results to actual design. © 2024 Architectural Institute of Japan. All rights reserved.

引用

页码：1355 / 1366

页数：11

共 21 条

[1] Matsunobu T., Sekainohuuryokuhatudenndounyuuryoutonihonnnoh Uuryokuhatudenndounyuuryou(Amount of Wind Power Installed in the World and Japan), Journal of JWEA, 41, 1, pp. 90-98, (2017)
[2] Tohnai T., Rikujyouhuusyayouoogatatawa-kure-nnnokaihatu S-Movable Towercrane nokaihatu(Development of large tower crane for onshore wind turbines S-Movable Towercrane), Journal of JWEA, 45, 3, pp. 474-475, (2021)
[3] Saitou T., Okuda H., Hayashi H., Masumoto K., The Prestressed Concrete Tower for The Wind Turbine in Nadachi-machi, 25th Memorial Wind Energy Utilization Symposium, pp. 161-164, (2003)
[4] Yamamoto M., Naito Y., Kondo K., Ohkuma T., STUDY ON WIND-INDUCED RESPONSES OF A WIND TURBINE COCCRETE TOWER BASED ON FIELD MEASUREMENTS, Journal of Structural and Construction Engineering (Transactions of AIJ), 607, pp. 45-52, (2006)
[5] Yamamoto M., Naito Y., Kondo K., Ohkuma T., WIND LOADS AND EXTERNAL FORCES ON A WIND TURBINE TOWER BASED ON FIELD MEASUREMENTS, Journal of Structural and Construction Engineering (Transactions of AIJ), 617, pp. 39-46, (2007)
[6] Max BOTZ, OBERLAENDER Stefan, RAITH Manuel, Christian U., GROSSE: Monitoring of Wind Turbine Structures with Concrete-steel Hybrid-tower Design, 8th Europian Workshop On Structural Health Monitoring, (2016)
[7] Suzuki Y., Sako Y., Morikawa A., DAMAGE SIMULATION ANALYSIS OF WIND TURBINE GENERATOR SUPPORT STRUCTURE CAUSED BY THE 2016 KUMAMOTO EARTHQUAKE, The AIJ Journal of Technology and Design, 26, 62, pp. 73-78, (2020)
[8] Yamanoi T., Yamamoto K., Fujishita K., Haitawa-nogainennsekkeinituit e (Conceptual Design of the Hightower), Journal of JWEA, 44, 3, pp. 447-450, (2020)
[9] Baba A., Tomizawa T., Fujishita K., A Study on the Complex Structure of Wind Turbine Support Structures -The Effects of Height Ratio of Steel and PC Structure on Seismic Response, Summaries of Technical Papers of Annual Meeting, Architectural Institute of Japan, Structure II, pp. 173-174, (2021)
[10] Horiguchi S., Tomizawa T., Fujishita K., Baba A., A Study on the Complex Structure of Wind Turbine Support Structures -Part2: Seismic response evaluation considering height ratio and overall height of composite structure, Summaries of Technical Papers of Annual Meeting, Architectural Institute of Japan, Structure II, pp. 911-912, (2022)

← 1 2 3 →