新型立柱式生产储油平台桁架管节点疲劳分析

doi:10.12087/oeet.2095-7297.2018.04.06

海洋工程装备与技术 ›› 2018, Vol. 5 ›› Issue (4): 252-258.doi: 10.12087/oeet.2095-7297.2018.04.06

• 海洋工程装备设计技术 • 上一篇下一篇

新型立柱式生产储油平台桁架管节点疲劳分析

马网扣¹，刘军²

1. 中国船舶及海洋工程设计研究院，上海200011；2. 中国石化上海石油化工股份有限公司，上海200540

收稿日期:2017-10-09 修回日期:2017-12-18 出版日期:2018-08-25 发布日期:2018-08-20
作者简介:马网扣(1978—)，男，研究员，主要从事海洋工程设计和研发工作。
基金资助:
国家发展改革委海洋工程装备研发及产业化专项“新型立柱式生产平台(SPAR)研发”(发改办高技［2015］1409号文)

Fatigue Analysis of Truss Tubular Joints of a New-Type Production and Storage SPAR

MA Wang-kou¹， LIU Jun²

1. Marine Design & Research Institute of China， Shanghai 200011, China; 2. Sinopec Shanghai Petrochemical Company Limited, Shanghai 200540, China

Received:2017-10-09 Revised:2017-12-18 Online:2018-08-25 Published:2018-08-20

摘要/Abstract

摘要： 研究平台管节点疲劳强度的谱分析法，根据南海海况进行某新型立柱式生产储油平台桁架管节点的疲劳分析。结果表明平台桁架管节点的疲劳强度满足设计要求，而立柱的疲劳强度小于撑管的疲劳强度。分析比较撑管轴向力、面内弯矩和面外弯矩各自对疲劳损伤的贡献，结果表明斜撑管的疲劳损伤主要由轴向力造成，水平撑管的疲劳损伤主要由面内弯矩造成，而面外弯矩对撑管造成的疲劳损伤较小。

Abstract: Spectral fatigue analysis method for truss tubular joints is studied and used to analyze the truss tubular joints of a new-type production and storage SPAR based on the sea condition of South China Sea. The results show that the fatigue strength of truss tubular joints of the new-type SPAR satisfies design requirement， and the fatigue strength of columns is worse than that of braces. Contributions to fatigue damage by axial force，in-plane bending moment and out-of-plane bending moment of braces are analyzed individually as well. The results show that the fatigue damage at diagonal braces is mainly caused by axial force of braces，the fatigue damage at horizontal braces is mainly caused by in-plane bending moment，while out-of-plane bending moment has little effect on fatigue damage at all braces.

中图分类号:

U656.6

马网扣, 刘军. 新型立柱式生产储油平台桁架管节点疲劳分析[J]. 海洋工程装备与技术, 2018, 5(4): 252-258.

MA Wang-kou, LIU Jun. Fatigue Analysis of Truss Tubular Joints of a New-Type Production and Storage SPAR[J]. Ocean Engineering Equipment and Technology, 2018, 5(4): 252-258.

参考文献

1 董艳秋. 深海采油平台波浪载荷及响应[M]. 天津: 天津大学出版社, 2005. Dong Yan-qiu. Wave loads and response of the oil extraction platform in deep ocean [M]. Tianjin: Tianjin University Press, 2005. 2 Technip. Worldwide survey of SPAR，DDCV and Mindoc vessels [R]. 2016. 3 郭斌, 唐文勇, 张圣坤. Truss SPAR平台桁架的疲劳分析方法[J]. 中国海洋平台, 2006, 21(4): 36. Guo Bin, Tang Wen-yong, Zhang Sheng-kun. Analysis method of truss's fatigue of truss SPAR [J]. China Offshore Platform, 2006, 21(4): 36. 4 陈鹏耀, 薛鸿祥, 唐文勇, 等. Truss SPAR平台桁架管节点疲劳分析[J]. 海洋工程, 2007, 25(2): 15. Chen Peng-yao, Xue Hong-xiang, Tang Wen-yong, et al. Fatigue analysis of tubular joints in a truss SPAR platform [J]. The Ocean Engineering, 2007, 25(2): 15. 5 李刚, 战立超. Truss Spar平台疲劳响应分析[C]. 中国力学大会2011暨钱学森诞辰100周年纪念大会论文集, 2011. Li Gang, Zhan Li-chao. Fatigue response analysis of atruss SPAR [C]. 2011 Chinese Congress of Theoretical and Applied Mechanics (CCTAM) and Tsien Hsue-shen's Centenary Conference, 2011. 6 李华祥, 刘晓雷, 白奇炜, 等. Truss SPAR平台全结构谱疲劳分析[C]. 第十七届中国海洋(岸)工程学术讨论会论文集(上), 2015: 51. Li Hua-xiang, Liu Xiao-lei, Bai Qi-wei, et al. Whole-structure spectrum fatigue analysis of truss SPAR platform [C]. Proceedings of the 17th Symposium on Ocean and Coastal Engineering of China (Ⅰ), 2015: 51. 7 马网扣, 冯昌宁, 王钰涵. 2000m水深桁架式生产储油SPAR平台开发[J]. 中国造船, 2017, 58(增刊1): 44. Ma Wang-kou, Feng Chang-ning, Wang Yu-han. Development of production storage truss SPAR working at water depth of 2000m [J]. Shipbuilding of China, 2017, 58(A01): 44. 8 马网扣, 王志青, 张海彬. 深水半潜式钻井平台节点疲劳寿命谱分析研究[J]. 海洋工程, 2008, 26(3): 1. Ma Wang-kou, Wang Zhi-qing, Zhang Hai-bin. Study on spectrum-based fatigue life direct calculation for spots of deep-water semi-submerged drilling unit [J]. The Ocean Engineering, 2008, 26(3): 1. 9 American Bureau of Shipping (ABS). Guide for the fatigue assessment of offshore structures [S]. 2014. 10 American Petroleum Institute (API). API-RP 2A-WSD. Recommended practice for planning, designing and constructing fixed offshore platforms-working stress design [S]. 2005.

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新型立柱式生产储油平台桁架管节点疲劳分析

Fatigue Analysis of Truss Tubular Joints of a New-Type Production and Storage SPAR

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