风电场海上基础单桩安装预测与监测

Rob van Dorp, Nicolas Moscoso, M. Bielefeld, G. Verbeek
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引用次数: 4

摘要

近年来,大多数海上基础都是基于一些用冲击锤安装的打入桩。随着海上风电场的增加,出现了两个主要的发展:从套桩到单桩的转变,导致基桩直径的增加,以及从冲击锤到振动锤的转变。随着振动锤的使用越来越普遍,对精确的振冲模拟软件的需求也越来越大,这就要求加强对土体的建模,以解决桩入过程中土体的疲劳问题,并可靠地预测桩入过程中土体的行为和阻力。此外,对冲击锤打桩的常规打桩监测也需要普及。本文讨论了土壤模型的进展,使更准确的打桩模拟以及应用振动打桩分析(VDA)或监测(VDM)来验证模拟结果。代尔夫特海上涡轮机项目测试桩的案例研究说明了这一点,这是一个28米长、直径4米的单桩,使用振动锤打入15米深的致密砂层。大约6个月后,进行了抽桩,并在安装和抽桩阶段进行了打桩模拟和VDA。
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Prediction and Monitoring of Installation of Offshore Foundation Monopiles for Windfarms
Upon recently, most offshore foundations were based on a number of driven piles that were installed with an impact hammer. With the increase in offshore windfarms two major developments have occurred: the shift from jackets to monopiles, leading to increase of the diameter of the foundation piles, and a shift from impact hammers to vibro hammers. As the use of vibratory hammers is becoming more and more common practice, the need for accurate vibro-driving simulation software has increased, which requires that the soil modelling is enhanced to address soil fatigue during pile driving and to predict reliably the soil behavior and resistance during pile driving. In addition pile driving monitoring, which is routine for piles driven with an impact hammer, needs to become common practice. This paper addresses advances in soil modelling that allows more accurate pile driving simulation as well as the application of Vibro Driving Analysis (VDA) or Monitoring (VDM) to validate the simulation results. This is illustrated by a case study of the test pile for the Delft Offshore Turbine project, a 28 m long monopile with a diameter of 4 m that was driven 15 m into dense sand layers using a vibro hammer. After some 6 months the pile was extracted, and pile driving simulations and VDA were done both for the installation and extraction phase.
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