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1.
砂土海床中大直径单桩水平承载与变形特性 总被引:5,自引:0,他引:5
通过室内三轴固结排水剪切试验等获得典型剪胀性砂土的力学参数,在此基础上利用有限元软件ABAQUS,开展了近海大直径单桩基础在水平荷载作用下的三维有限元数值分析,揭示了加载过程中桩周土的应力路径,探讨了桩周土内摩擦角、剪胀角及桩土接触面特性等对三维数值分析结果的影响,得到了离心模型试验的验证,进而提出了砂土海床中大直径单桩基础的合理数值分析模型及参数取值方法,并建议风机大直径单桩基础水平承载力确定以变形作为控制标准。在此基础上,利用该数值分析模型分析了现有桩基承载力和变形分析方法对超大直径单桩的有效性,并提出了采用数值分析来确定基础的临界埋深的确定方法。 相似文献
2.
海上风力发电作为一种绿色能源越来越受到重视,单桩基础局部冲刷的研究受到广泛关注。建立了不同冲刷深度的海上风机系统模型,对各模型进行静力、动力分析。结果与前人冲刷模型试验吻合,随着桩基冲刷深度的增大,支撑系统的最大水平位移、最大水平应力和最大弯矩值逐渐增加。冲刷深度为两倍桩径时,最大水平位移、应力及弯矩分别比无冲刷条件下增加了3.61%、12.7%、10.3%。风机系统的自振频率随冲刷深度的增加而降低,高阶频率更易受影响。桩基冲刷对风机系统的动力特性有显著影响,塔顶水平位移时程曲线随冲刷深度不断上移。海上风机设计时必须考虑冲刷对支撑系统承载性能的影响。 相似文献
3.
海上风电机组筒型基础工作及承载特性研究 总被引:1,自引:0,他引:1
筒型基础是一种新型的海上风电基础,由于其具有减少工程量、节省投资、缩短施工时间、可重复使用等优点,在某些领域正在逐步替代桩基和重力式基础。目前工程上对筒型基础的设计还没有现成的规范可供使用,一般是将筒内部土体与筒壁视为一体,然后采用简化的极限平衡方法进行设计计算,不能反映筒内土体的工作特性。以福建近海某风电基础工程为依托,采用大型有限元软件ABAQUS对海上风机单筒基础的承载特性进行了三维有限元数值分析。根据海上风机的受力特点,考虑基础隔舱的作用效果,建立了筒型基础的简化模型与有无隔舱的计算模型。计算结果表明:筒型基础在受荷过程中,基础内部土体产生屈服变形,使得筒型基础的承载特性不同于简化极限平衡方法。两者之间的差异使得实际的地基承载能力比极限平衡方法计算所得的要小。此外,对现行简化计算方法的误差进行了估计,并对筒型基础承载力计算提出建议,可供筒型基础设计者参考。 相似文献
4.
复合筒型基础是一种新型的宽浅式基础型式。在风、波浪、海流等动力荷载的作用下,复合筒型基础内外地基孔隙水压力的变化对结构安全产生影响。模拟了复合筒型基础受到的风浪流荷载,并将风浪流荷载合理叠加,采用三维有限元方法分析了风浪流联合作用下复合筒型基础地基动力响应规律。同时对复合筒型基础内外地基孔隙水压力的变化规律及液化范围进行了系统分析,通过分析发现:复合筒型基础附近海床液化深度随着饱和度、渗透系数、波浪周期、水深的增大而增大,随着泊松比的增大而减小。 相似文献
5.
为探讨海上风机在风、浪等水平往复循环荷载下大直径单桩基础的循环弱化特性,设计了稳定输出长期循环荷载的机械加载装置,开展了软黏土中长期水平循环荷载下海上风电大直径单桩基础和传统长桩基础的模型试验对比研究。根据API给出的骨干曲线和Masing二倍准则构建循环荷载下的p-y(荷载-位移)曲线,并借鉴前人工作,采用累积塑性应变描述软黏土的不排水抗剪强度弱化,提出了分析大周数水平循环荷载下单桩基础循环弱化的理论方法。该方法将循环荷载次数、幅值等外界条件与桩周土体的循环弱化特性建立联系,以适应海洋环境复杂多变的水平循环荷载形式。通过模型试验和理论研究认为,大直径单桩基础因刚度较大,在同样的水平力循环荷载条件下,其抵抗循环荷载的能力明显优于传统长桩。在海上风机大直径单桩的设计中采用基于黏土残余强度的循环后稳定水平承载力更为合理。 相似文献
6.
Acta Geotechnica - Offshore wind turbines founded on monopiles are highly dynamic structures in which the stiffness of the soil adjacent to the monopile controls the natural frequency of the... 相似文献
7.
Xiangshui offshore wind power station is located in shore water near Chengang of Jiangsu province. As the pile groups of the wind turbines have complicated engineering characteristics, their design is one of the technical difficulties of the project. Deformation behaviors of the piles foundation of Xiangshui 2MW wind turbine generator system are computed and analyzed under static loads and cyclic wind loads. The results show that deformations of the foundation are allowable; and the deformations due to static loads are comparatively smaller than that under the containing cyclic wind loads condition. With the depth increasing, the horizontal displacement and its influence range decrease; while the maximal vertical settlement is steady and vertical influence range increases. Deformation characteristics of pile-soil system depend not only on the loads combination of the subject, but also on the soil conditions. 相似文献
8.
9.
The ultimate bearing capacity of strip footings resting on subsoil consisting of a strong sand layer (reinforced/unreinforced)
overlying a low bearing capacity sand deposit has been investigated. Three principal problems were analysed based on results
obtained from the model tests as follows: (1) the effect of stratified subsoil on the foundations bearing capacity; (2) the
effect of reinforcing the top layer with horizontal layers of geogrid reinforcement on the bearing capacity; (3) effect of
reinforcing stratified subsoil (reinforced and unreinforced) on the settlement of the foundation. It has been observed that
reinforcing the subsoil after replacing the top layer of soil with a well-graded soil is beneficial as the mobilization of
soil-reinforcement frictional resistance will increase. 相似文献
10.
A comprehensive numerical model for the analysis of offshore foundations under a general transient loading is presented here. The theoretical basis of the model lies on the Swansea formulation of Biot’s equations of dynamic poroelasticity combined with a constitutive model that reproduces key aspects of cyclic soil behaviour in the frame of the theory of generalised plasticity. On the practical side, the adoption of appropriate finite element formulations may prevent the appearance of spurious numerical instabilities of the pore pressure field. In this respect, the use of a coupled enhanced-strain element is here proposed. On the other hand, the practicality of the presented model depends ultimately on its computational efficiency. Some practical recommendations concerning the solution strategies, the matrix storage/handling procedures and the parallel multi-processor computation are here provided. Finally, the performance of the model with a benchmark study case and its practical application to analyse the soil–structure interaction of an offshore monopile under a realistic transient storm loading are discussed. 相似文献
11.
The demand on green and clean energy is increasing all over the world. This urge us to try to reduce the obstacles in this field. One of the main obstacles is the high cost of offshore foundation system of wind turbines. A novel offshore hybrid foundation system is proposed for large offshore wind turbines to try to reduce the construction cost. This new system consists of circular precast concrete plate connected on site (i.e. offshore) to a steel monopole that is smaller than the usual pile size used. Parametric study for different foundations systems including monopiles had been done. The displacements at different locations of the foundation and the rotation at the pile head were analyzed and evaluated using a 3D nonlinear finite element model under field-like loading conditions considering different foundation configurations. This work paves the way for the development of design guidelines for this novel foundation system in offshore wind turbine applications. 相似文献
12.
水平循环荷载下风电机桩基础离心模型试验研究 总被引:4,自引:0,他引:4
在近海风力发电工程中桩基是常用的基础型式,海上风力发电机桩基础一般建立于复杂软土地基、承受着海上风浪、潮流等近似水平向的循环荷载作用,而风力发电机组运行对基础的承载力和变形有严格的要求。因此,研究水平循环荷载下桩土系统变形规律和相互作用机制具有重要的意义。针对典型的近海风机单桩基础,选取典型的饱和砂性土地基,通过离心模型试验的方法研究了水平循环荷载下的风机桩基础的受力变形规律。试验结果表明,水平向循环作用下,桩周围土体中变形主要呈现为挤压或塌陷产生的沉降和水平向变形,变形主要集中在桩周围较小的范围内;变形呈现逐渐累积特性,其大小随着循环次数的增加而增加;桩身弯矩峰值出现在埋深上1/3处,多次循环后的弯矩大小和分布变化不大;桩周围土体中不同位置产生不同的超静孔隙水压力,孔隙水压力发展对土体变形有一定影响 相似文献
13.
Behavior of monopile foundations under cyclic lateral load 总被引:1,自引:0,他引:1
This paper describes the development and application of design charts for monopile foundations of offshore wind turbines in sandy soil under long-term cyclic lateral load. It outlines a numerical model, working with a numerical concept, which makes the calculation of accumulated displacements based on cyclic triaxial test results possible, and it describes important factors affecting the deformation response of a monopile to cyclic lateral loads. The effects of pile length, diameter and loading state on the accumulation rate of lateral deformation are presented and design charts are given, in which a normalized ultimate lateral resistance of a pile is used. For monopiles with very large diameter, the suitability of the “zero-toe-kick” and “vertical tangent” design critera for determining the required embedded length is discussed. 相似文献
14.
复合筒型风电基础单向流局部冲刷试验研究 总被引:1,自引:0,他引:1
复合筒型基础是一种新型的宽浅式海上风电基础,相对于桩基础等深基础,复合筒型基础周围地基的冲刷破坏对风机结构体系安全性的影响更加明显,因此,研究海流作用下复合筒型基础的冲刷特性很有必要。针对某工程实例,建设了冲刷试验场地,布置了典型测点,为复合筒型基础冲刷试验奠定了基础;采用系列比尺模型的方法,分别选取1:20、1:40、1:70三种比尺的模型,对海上风电复合筒型基础样机周围粉砂质海床的冲刷情况进行了试验研究;分析了各组试验冲刷平衡时间、模型周围冲刷坑的范围、最大冲刷深度,并且依据系列比尺模型试验原理计算出了实际工程中的冲刷深度。通过试验研究给出了实际工程复合筒型基础的最大冲刷深度,明确了单向流作用下复合筒型基础周围地基局部冲刷特性,填补了复合筒型基础冲刷试验研究的空白,为复合筒型基础的工程应用提供了指导。 相似文献
15.
吸力基础具有施工方便、可回收利用及造价低等优点,在海洋平台及海上风电工程中得到了成功应用。吸力基础用于系泊深海浮动式平台时,抗拔承载特性是工程设计的重要因素。海上风电场面临着服役期满后的升级改造问题,需采用更大功率的发电设备,风机叶片直径、塔架高度随之增加,原基础难以满足新的设计要求,从可持续发展角度,塔架基础的拔出、回收等方面正逐渐引起人们的高度重视。本文介绍了吸力基础抗拔、拔出特性方面取得的研究成果,阐述了影响基础抗拔和拔出特性的因素,阐明了吸力基础拔出的力学机制与作用机理。通过文献调研推断:注水拔出吸力基础,砂土会发生渗流破坏,黏土会产生劈裂破坏,会导致基础无法继续上拔,应结合拉力上拔或振动法对基础进行回收。 相似文献
16.
Wind loads are random variables, which induce significantly greater responses in structures than do static loads. We develop a finite-infinite element model of a 2 MW wind turbine using ABAQUS and then verify it with in situ data. The adopted dynamic constitutive model of the soil is based on the Davidenkov skeleton curve. The results demonstrate that the dynamic amplification factors (DAFs) strongly depend on wind speed and spatial position. Considerable values of the DAFs, ground acceleration, and ground velocity are observed, suggesting that the responses of the shallow foundation of a wind turbine are affected by dynamic wind loads. 相似文献
17.
开展了近场和远场地震动作用下3跨3层地铁车站结构地基液化效应的振动台模型试验,测试了地铁车站结构的加速度、应变、水平位移反应和地基土孔隙水压力、加速度、震陷及其作用于模型结构侧墙的动土压力反应。分析和总结了地铁车站结构地基液化效应特征,结果表明:模型结构对其周围地基土孔隙水压力场的分布有明显影响,结构两侧和底部地基土中的孔压峰值小于相同深度离结构较远地基土中的孔压峰值;地基土中孔压的消散速度自下而上呈逐渐减慢的趋势;地震动作用过程中,模型结构产生向上的相对运动,强地震动作用时模型结构上浮现象明显;模型结构侧墙受到的动土压力随深度增大而减小,输入地震动特性对动土压力的大小有显著影响。 相似文献
18.
海上风电是我国近年来重点发展的能源形式之一,大直径宽浅式筒型基础作为一种新型海上风电基础,具有更好的抗倾覆承载能力,更加适用于我国近海软黏土较多的土质特点;并可以实现岸边预制、海上基础?塔筒?风机整体浮运与安装,具有良好的经济效益。为更好地掌握宽浅式筒型基础的承载特性,针对海上风电基础承受水平向与倾覆荷载较大的特点,开展了数值分析对筒型基础的单向极限承载性能进行研究,得到水平向以及抗倾极限承载力和对应的承载模式;并基于筒型基础的承载模式,建立相应的破坏机动场和速度场,结合虚功方程和内部能量损耗率函数,采用数学软件编程求解了宽浅式筒型基础水平向和抗倾承载力的极限分析上限解,计算结果与数值结果的吻合程度良好。 相似文献
19.
为研究液化场地中群桩在强震作用下的动力响应特征及桩侧土抗力-桩土相对位移(p-y)曲线规律,依托海文大桥实体工程,基于振动台模型试验,开展了0.15g~0.35g地震动作用饱和粉细砂土层不同埋置深度下的砂土孔压比、桩身弯矩及p-y曲线动力响应研究。结果表明:地震动强度达到0.25g时,不同埋置深度下的饱和粉细砂土层孔压比均大于0.8,产生液化现象,且随埋置深度增加,孔压比增长时刻明显滞后;不同埋置深度下,桩身弯矩最大值均位于液化土层和非液化土层分界面处;同一埋置深度时,随地震动强度的增大,p-y曲线所包围的面积逐渐增大,其整体斜率逐渐变小,说明桩-土相互作用动力耗能逐渐增大,桩周土体刚度逐渐减小;随埋置深度增加,p-y曲线所包围的面积逐渐减小,其整体斜率逐渐增大,说明桩-土相互作用动力耗能逐渐减小,桩周土体刚度逐渐增大。因此,液化场地桥梁群桩抗震设计时,应综合考虑液化土层与桩基础的相互位置关系,确保桩基础在液化土层与非液化土层分界处的抗弯承载能力。 相似文献
20.
This paper aims at finding force-displacement relationships to be employed in the design of bucket foundations for offshore wind turbine. This is accomplished by combining small-scale tests and element tests within a theoretical framework. A similitude theory, regarding the lateral displacement of bucket foundations under horizontal load, is put forward. A constitutive law of the soil and a load-displacement relationship for the bucket foundation are theoretically obtained. Triaxial tests of sand, and small-scale tests of bucket foundation, are respectively employed to corroborate the theory. Attention is given to the different behaviour shown during the compressive and dilative phases of the soil. Some analogy between triaxial tests and tests of bucket foundation are pointed out. A theoretically derived power law is found capable to represent the dimensionless horizontal load-displacement curves of experimental results. In accordance with the theory, the exponent of the power law slightly varies between tests with considerably different features. The non-dimensional moment-rotation relationship is represented by a power law as well. The approach is considered valid for fatigue design. The study may be an interesting source for further researches on long-term cyclic horizontal loading. 相似文献