%0 Journal Article %T 海上风电复合筒型基础粉质黏土下沉试验分析<br>Analysis of Penetration Test of Composite Bucket Foundations for Offshore Wind Turbines in Silty Clay %A 丁红岩 %A 贾楠 %A 张浦阳 %A 刘永刚 %J 天津大学学报(自然科学与工程技术版) %D 2017 %R 10.11784/tdxbz201610015 %X 复合筒型基础的沉放是一项关键施工过程.沉放时土体在施工负压下受到扰动, 土体中土压力和孔隙水压力发生变化, 对沉贯阻力造成影响.针对复合筒型基础的沉放过程, 在粉质黏土中开展了大比尺模型试验.试验中监测了基础舱内压力、周围土体的土压力及孔隙水压力的变化.通过理论计算, 对试验模型沉贯所需负压进行预测, 并将试验施加负压与预测负压进行对比.试验结果表明:基础周围土体土压力和孔隙水压力在负压作用下均减小, 且筒壁内侧土体土压力减小程度大于外侧土体; 沉放过程中基础发生倾斜时, 通过向高舱处抽负压可以有效调整基础的倾斜度; 预测负压大于试验施加负压, 当使用Houlsby提出的计算方法计算筒型基础在粉质黏土中的沉贯阻力时, 摩擦系数建议取0.3.<br>The penetration of composite bucket foundation is a vital construction process. The soil is disturbed under negative pressure in the process,and both soil pressure and pore water pressure in soil are changed,which affects penetration resistance. A large-scaled model test on the penetration process of composite bucket foundation was carried out in silty clay. During the test,the pressure in compartments,soil pressure and pore water pressure in surrounding soils were monitored. Moreover,the required negative pressure for penetrating was predicated through theoretical calculation,and the negative pressure applied to the test was compared with the predicted negative pressure. The results show that the soil pressure and pore water pressure in the soil around the foundation are both reduced. In addition,the inner soil pressure near the skirt decreases more than the outer soil pressure. When the foundation starts to tilt,the feasibility of bucket tilt adjusting technique is validated by applying suction to higher compartments. The predicted negative pressure is larger than the applied negative pressure in the test. When Houlsby’s method is adopted to calculate the penetration resistance of a bucket foundation in silty clay,the friction coefficient is recommended to be 0.3 %K 复合筒型基础 %K 土压力 %K 孔隙水压力 %K 沉贯阻力< %K br> %K composite bucket foundation %K soil pressure %K pore water pressure %K penetration resistance %U http://journals.tju.edu.cn/zrb/oa/darticle.aspx?type=view&id=201709001