Parametric Study of Lateral Load on Helical Pipe Piles in Clay

Geotechnics Pub Date : 2024-01-19 DOI:10.3390/geotechnics4010008

Guowei Sui, Lin Li, Jialin Zhou, Erwin Oh

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Abstract

In the past decades, as the world has placed emphasis on green energy, solar energy has become a favorable option. Different piled foundations have been designed to strengthen the structure supporting the solar panels. These piled foundations include rectangular and circular hollow section piles, as well as H-shaped piles. With various environmental loadings, lateral soil displacement will be encountered when large solar panels are installed on the supporting structure at an inclined angle. Presently, helical pipe piles are widely used in solar farms as part of the supporting structure. In this paper, the pile–soil interaction of steel pipe piles and helical pipe piles with wind loads is analyzed using ABAQUS. The Finite Element Method (FEM) models are assessed with varying strength moduli and cohesions of clay. Further, this paper examines the pile soil system, considering different clay stiffnesses, including very soft, soft, firm, stiff, very stiff, and hard. It is found that the helical piles’ horizontal capacity increases with soil strength and Young’s modulus, but the capacity increment rate reacts differently. This study has a guiding effect on the construction of solar farms using the “tracker” solar system.

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粘土中螺旋管桩侧向荷载参数研究

过去几十年来，随着全球对绿色能源的重视，太阳能已成为一种有利的选择。为了加强支撑太阳能电池板的结构，人们设计了不同的桩基。这些桩基包括矩形和圆形空心截面桩以及 H 型桩。在各种环境荷载作用下，当大型太阳能电池板以倾斜角度安装在支撑结构上时，会出现土壤横向位移。目前，螺旋管桩作为支撑结构的一部分被广泛应用于太阳能发电场。本文使用 ABAQUS 分析了钢管桩和螺旋管桩在风荷载作用下的桩土相互作用。有限元法（FEM）模型在粘土的强度模量和内聚力不同的情况下进行了评估。此外，本文还对桩土系统进行了研究，考虑了不同的粘土刚度，包括非常软、软、坚硬、硬、非常硬和硬。研究发现，螺旋桩的水平承载力随土壤强度和杨氏模量的增加而增加，但承载力增加率的反应却不同。这项研究对使用 "跟踪器 "太阳能系统建设太阳能发电场具有指导作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Geotechnics

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