基于有限元分析的海上风力机吸力沉箱承载能力简化评估

Hung T. Nguyen, Bui Vinh Quang, H. V. Huynh
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引用次数: 0

摘要

吸式沉箱广泛用于海上风力发电机。其承载能力取决于铲斗的几何形状和所埋土的性质。本文利用Plaxis 2D程序,提出了一种基于有限元分析的吸力沉箱承载力简化评估方法。根据得到的荷载-位移曲线,采用切线相交法确定吸力沉箱的承载能力。此外,本文还建立了吸力沉箱承载力与地表基础关系的等效方程。研究结果表明,吸力的几何形状对其承载能力有显著影响。长径比越大的吸力沉箱承载能力越强。此外,根据吸力沉箱的几何形状,本文所建立的等效方程可以有效地估算其承载能力。本文所分析的有限元程序和土-地基模型只是一个假设。在未来的实验研究中,应采用离心模型和大比例尺模型来研究吸力沉箱的承载能力与其几何形状和埋地土壤剖面的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A SIMPLIFIED ASSESSMENT OF THE LOAD BEARING CAPACITY OF SUCTION CAISSON FOR OFFSHORE WIND TURBINES BASED ON FINITE ELEMENT ANALYSIS
Suction caisson is widely used for offshore wind turbine applications. Its loadbearing capacity depends on the bucket geometry and its embedded soil properties. This paper presents a simplified assessment of the loadbearing capacity of suction caisson based on finite element analysis using the Plaxis 2D program. The load-bearing capacity of the suction caisson is determined based on the resulting load-displacement curve via the tangent intersection method. In addition, this study developed an equivalent equation exploring the relationship between the load-bearing capacity of the suction caisson and the surface foundation. The findingsin the study showed that the geometry of the suction has a significant influence on its loadbearing capacity. The suction caissons whose aspect ratios are larger resulted in higher loadbearing capacities. Besides, the equivalent equation in this study could be applied to effectively estimate the load-bearing capacity of suctioncaisson based on its geometry. The finite element program and the soil ground model analyzed in this study was only an assumption. In the future, experimental studies should investigate the loadbearing capacity of a suction caisson related to its geometry and the embedded soil profile using centrifuge models and large-scale models.
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