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蔡正银, 王清山, 关云飞, 韩迅, 李文轩. 分舱板对海上风电复合筒型基础承载特性的影响研究[J]. 岩土工程学报, 2021, 43(4): 751-759. DOI: 10.11779/CJGE202104018
引用本文: 蔡正银, 王清山, 关云飞, 韩迅, 李文轩. 分舱板对海上风电复合筒型基础承载特性的影响研究[J]. 岩土工程学报, 2021, 43(4): 751-759. DOI: 10.11779/CJGE202104018
CAI Zheng-yin, WANG Qing-shan, GUAN Yun-fei, HAN Xun, LI Wen-xuan. Influences of bulkheads on bearing characteristics of composite bucket foundation of offshore wind turbines[J]. Chinese Journal of Geotechnical Engineering, 2021, 43(4): 751-759. DOI: 10.11779/CJGE202104018
Citation: CAI Zheng-yin, WANG Qing-shan, GUAN Yun-fei, HAN Xun, LI Wen-xuan. Influences of bulkheads on bearing characteristics of composite bucket foundation of offshore wind turbines[J]. Chinese Journal of Geotechnical Engineering, 2021, 43(4): 751-759. DOI: 10.11779/CJGE202104018

分舱板对海上风电复合筒型基础承载特性的影响研究

Influences of bulkheads on bearing characteristics of composite bucket foundation of offshore wind turbines

  • 摘要: 为了增强结构强度、浮运稳定性以及实现下沉过程的精细化调平,复合筒型基础钢筒内须设置分舱板,但目前有关分舱板对基础承载特性影响的研究尚不深入。以6.45 MW海上风机复合筒型基础为例,基于有限元数值模拟,研究了不同转动状态和不同结构尺寸下蜂窝状分舱板对复合筒型基础承载特性的影响,并评价了分舱板形式、高度和厚度对基础承载力的影响效果。研究表明,分舱板的存在可明显提高基础的承载力,其作用随筒体转角的增大而增大;筒体高径比为0.33时,分舱板对基础承载力的提高效果最佳,当筒体转角达到风机正常使用最大转角0.5°时,基础承载力可提高9.23%;分舱板的存在不影响转动中心的运动规律,但分舱板对转动中心竖向位置的影响明显大于水平位置。设计时应考虑分舱板对复合筒型基础承载力的提高作用,并可以适当优化分舱板形式、高度以及厚度。

     

    Abstract: In order to enhance the strength of the structures and the stability of the floating process and to realize the fine leveling of the sinking process, the bulkheads must be installed in the composite bucket foundation. However, the researches on the influences of bulkheads on the bearing characteristics of foundation are not in-depth. Taking the composite bucket foundation of 6.45 MW offshore wind turbine as an example, a series of FEM numerical simulations are conducted to study the influences of honeycomb bulkheads as well as bulkheads form, height and thickness on the bearing characteristics under different rotational states and structural dimensions. The results show that the bulkheads can obviously enhance the bearing capacity, and the enhancement effect increases with the increase of rotational angle. When the aspect ratio of bucket foundation is 0.33, the bulkheads have the best enhancement effect for bearing capacity. When the rotational angle reaches 0.5° which is the maximum rotational angle of offshore wind turbine in normal operation, the bearing capacity of the foundation can be increased by 9.23%. The bulkheads can not change the motion law of the rotation center, but the influences of bulkheads on the vertical position of rotation center are obviously greater than those on the horizontal position. The influences of bulkheads on the bearing capacity of composite bucket foundation should be considered in the design. In addition, the form, height and thickness of bulkheads can be optimized appropriately.

     

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