Cyclic Strength of Soils at Atlantic Shores Offshore Wind Farm

Day 2 Tue, May 02, 2023 Pub Date : 2023-04-24 DOI:10.4043/32389-ms

P. Peralta, K. Vembu, Jack Dow Fraser, S. Adhikari, A. Trandafir, X. Long, Deanne Hargrave

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Abstract

The cyclic soil behavior of North Sea clays and silica sands have been well-documented (Andersen 2004, 2009, etc), and have been used globally to develop soil models and design foundations for structures subjected to cyclic wave loading. The recent development of offshore wind farms within the Atlantic Offshore Continental Shelf (OCS) in the U.S. have prompted the large-scale design of fixed-bottom foundations of offshore wind structures, which are designed to be highly dynamic. In contrast to North Sea soils, very few data have been published regarding the strength behavior of typical Atlantic OCS soils. This has prompted the need to review industry-accepted soil models and cyclic design procedures based on empirical data and model testing from the North Sea and whether these may be applicable to Atlantic OCS soils. This paper presents cyclic soil data from a series of triaxial and direct simple shear tests on clay, silt, and sand samples from the Atlantic Shores Offshore Wind Lease Area in offshore New Jersey. A comparison of the soil behavior is made to published North Sea soils data and recommendations are provided on soil parameters for application to foundation design procedures for offshore wind structures within the Atlantic OCS.

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大西洋海岸海上风电场土壤的循环强度

北海粘土和硅砂的循环土体特性已经得到了充分的记录(Andersen 2004, 2009等)，并已在全球范围内用于开发受循环波荷载作用的土体模型和设计基础。最近在美国大西洋近海大陆架(OCS)内的海上风电场的发展促使了海上风力结构固定底基础的大规模设计，这些结构的设计是高度动态的。与北海土壤相比，很少有关于典型大西洋OCS土壤强度行为的数据发表。这促使人们需要根据北海的经验数据和模型测试来审查行业公认的土壤模型和循环设计程序，以及这些模型是否适用于大西洋OCS土壤。本文介绍了来自新泽西州大西洋海岸海上风电租赁区的粘土、淤泥和沙子样品的一系列三轴和直接简单剪切试验的循环土壤数据。与已发表的北海土壤数据进行了土壤特性的比较，并为大西洋OCS内海上风电结构的基础设计程序提供了土壤参数的建议。

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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Day 2 Tue, May 02, 2023

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