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发表时间：2004-01-01

发表刊物：计算力学学报

所属单位：运载工程与力学学部

期号：1

页面范围：38-44,87

ISSN号：1007-4708

摘要：Taking the CB11F offshore jacket platform that lies in the Shengli oil field as a case study, the theory and the application techniques of optimization design of offshore platform structures are investigated in this paper. The cross sectional sizes, nodal coordinates and layout of the structure are taken as design variables. A unified model for size, shape and topology optimization has been presented. As the coupling between various design variables causes trouble in dealing with the optimization problem, a two-level scheme is adopted to optimize the shape and size variables simultaneously. The ground structure method is used in topology optimization. The platform structure is under the action of multi-load cases including wind, current and floating ice from various directions. Based on the design regulations and rules, we consider various kinds of constraint conditions such as strength, stiffness, stability, etc. The optimization object is minimizing the weight of the platform structure. The Sequential Linear Programming (SLP) is selected to solve the optimization problem. In order to ensure the convergence of the iteration process, numerical approaches such as the adaptive move limit, the approximate line search and the approximate reanalysis have been proposed. JIFEX, a finite element analysis and optimum program package is utilized to implement the layout optimum design of the offshore platform, which generates a new platform model which satisfies various design requires such as the structural stability, safety service years, the lowest cost and so on. The topology-based optimized results are also compared with three different optimization levels under different load cases.

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