Effects of Foundation Models on Jack-up Site Assessment

Z. Jian, Tan Wen-xian, Su Shi-jie, G. Chao
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引用次数: 3

Abstract

In order to investigate effects of different foundation models on jack-up site assessment, numerical simulation of a jack-up is presented based on fix joint, pin joint, linear springs and elastic-plastic model. The hull, leg, hull-leg connection is modelled using equivalent beam, beam element, spring element, respectively. Environmental loads, such as steady current, wind, wave, inertial load and buoyancy, are also included in the numerical model. Static and natural frequency extraction analysis of the jack-up is then performed in elevated condition. Finally, static and natural response rules are proposed for the four foundation models. The results show that, the horizontal hull displacement, maximum leg stress, loads on spudcan B and horizontal moment on spudcan A decrease as the rotational stiffness increases, while the natural frequency, vertical load and horizontal load on spudcan A increase with the increasing rotational stiffness. And the responses for elastic-plastic model are close to the pin joint. The proposed modelling and analyzing method is effective and reliable, which could provide guidance for jack-up development and assessment. Key words: Jack-up; Fix joint; Pin joint; Linear springs; Elastic-plastic model; Numerical simulation
基础模型对自升式场地评价的影响
为了研究不同基础模型对自升式平台场地评价的影响,基于固定节点、销节点、线性弹簧和弹塑性模型对自升式平台进行了数值模拟。分别采用等效梁、梁单元、弹簧单元对船体、支腿、支腿连接进行建模。环境载荷,如恒流、风、浪、惯性载荷和浮力,也被纳入数值模型。然后在升高状态下对自升式平台进行静态和固有频率提取分析。最后,提出了四种基础模型的静态和自然响应规则。结果表明:随着旋转刚度的增大,船身水平位移、最大腿应力、B轴载荷和A轴水平弯矩减小;随着旋转刚度的增大,A轴固有频率、垂直载荷和水平载荷增大;弹塑性模型的响应更接近于销节点。所提出的建模与分析方法有效可靠,可为自升式钻井开发与评价提供指导。关键词:自升式;修复关节;枢接;线性弹簧;弹塑性模型;数值模拟
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