[1]李 鹏,王博士,郭 健,等.基于有限元仿真的三芯光纤复合海缆扭转研究[J].郑州大学学报(工学版),2022,43(04):67-73.[doi:10.13705/j.issn.1671-6833.2022.04.007]
 LI Peng,WANG Boshi,GUO Jian,et al.Torsional Research of Three-core Fiber Composite Submarine Cable Based on Finite Element Simulation[J].Journal of Zhengzhou University (Engineering Science),2022,43(04):67-73.[doi:10.13705/j.issn.1671-6833.2022.04.007]
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基于有限元仿真的三芯光纤复合海缆扭转研究()
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《郑州大学学报(工学版)》[ISSN:1671-6833/CN:41-1339/T]

卷:
43
期数:
2022年04期
页码:
67-73
栏目:
出版日期:
2022-07-03

文章信息/Info

Title:
Torsional Research of Three-core Fiber Composite Submarine Cable Based on Finite Element Simulation
作者:
李 鹏1 王博士2 郭 健1 苏 凯2
1.中国电建集团华东勘测设计研究院有限公司;2.武汉大学水资源与水电工程科学国家重点实验室;

Author(s):
LI Peng1WANG Boshi2GUO Jian1SU Kai2
1.PowerChina Huadong Engineering Corporation Limited,Hangzhou 311122,China;
2.State Key Laboratory of Water Resources and Hydropower Engineering Science,Wuhan University,Wuhan 430072,China
关键词:
Keywords:
three-core fibertorsional characteristicsfinite element simulationyield stresssafety margin
分类号:
TM247
DOI:
10.13705/j.issn.1671-6833.2022.04.007
文献标志码:
A
摘要:
为探究三芯光纤复合海底电缆扭转过程中主要结构的力学特性,以 220 kV 三芯光纤复合海底电缆为研究对象,基于有限元软件 ABAQUS,建立了海缆局部段的精细数值分析模型。 在保证力学结构真实性的前提下对海缆计算模型进行简化,并在结构接触部位设置面-面接触控制,模拟海缆最外层结 构受外力驱动发生扭转时各层接触部位发生的相对运动。 通过开展相关数值仿真实验,重点研究海缆扭转过程中各材料发生屈服的先后顺序以及扭转角度对海缆铠装钢丝层、铜导体、光单元的受力影响。结果表明,在海缆扭转过程中,应力的轴向扩散导致同一断面处铠装钢丝层、铜导体、光单元的应力呈现 出先增大后减小的趋势;相对材料自身屈服强度而言,轴向上两端部应力较低,远离固定端约 0. 2 ~ 0. 5 倍约束距离处应力较大;沿轴向方向各结构扭转角度具有较好的同步性,并呈现出线性变化趋势;随着 扭转角度的增大,铠装钢丝层和光单元在靠近端部约 0. 1 倍约束距离处出现应力集中,铜导体应力沿轴向方向保持较高的水平;扭转过程中,在同一断面位置的铜导体、铠装钢丝层、光单元先后发生屈服,结构安全度表现出典型的非同步性特征。
Abstract:
In order to explore the mechanical properties of the main structures of the three-core fiber composite submarine cable during torsion,220 kV three-core fiber composite submarine cable was taken as the sample.Based on the finite element software ABAQUS,a 3D numerical simulation model of 220 kV three-core fiber composite submarine cable was established.On the premise of guaranteeing the authenticity of mechanical structure,the calculation model was simplified and the surface-surface contact control was set up to simulate the relative motion of each layer when the outermost structure was torsionally driven by external force.The yield sequence and effect of torsion angle on stress of the steel armor,copper conductor and optical fiber were mainly studied by numerical simulation experiments.The results showed that the stress of the steel armor,copper conductor and optical fiber at the same section increased initially and then decreased due to the axial stress diffusion,while the stress at both ends was lower,and greater compared to the yield stress of the material itself at 0.2-0.5 times model length away from the fixed end during the torsion of the cable.The torsion angle along the axial direction had a good synchronicity and a linear downtrend.With the increase of torsion angle,the stress concentration appeared at 0.1 times model length away from the both ends of the steel armor and the optical fiber,and the copper conductor kept a higher level along the axial direction.During the torsion process,copper conductor,the steel armor and optical fiber yielded successively,and the safety margin had obvious non-synchronicity.

参考文献/References:

[1] 王裕霜. 国内外海底电缆输电工程综述[ J] . 南方 电网技术, 2012, 6(2) : 26-30. 

WANG Y S. Review on submarine cable projects for power transmission worldwide[ J] . Southern power system technology, 2012, 6(2) : 26-30. 
[2] ZHANG D, ZHANG X L, HE J K, et al. Offshore wind energy development in China: current status and future perspective[ J] . Renewable and sustainable energy reviews, 2011, 15(9) : 4673-4684. 
[3] 张旭, 尹成群, 吕安强, 等. 光电复合海缆有限元 建模与仿真[ J] . 计算机仿真, 2013, 30( 2) : 120- 124, 147. 
ZHANG X, YIN C Q, LYU A Q, et al. Method of constructing finite element model and simulating of photoelectric composite submarine cable[ J] . Computer simulation, 2013, 30(2) : 120-124, 147. 
[4] 卢志飞, 林晓波, 郑新龙, 等. 三芯光纤复合海缆 拉伸的有限元建模与仿真[ J] . 光通信研究, 2016 (3) : 29-32.
 LU Z F, LIN X B, ZHENG X L, et al. Finite element modeling and simulation of three-core optical fiber composite submarine cable stretching [ J ] . Study on optical communications, 2016(3) : 29-32. 
[5] 卢正通, 乐彦杰, 吴颖君, 等. 海底电缆施工作业 机械受 力 建 模 分 析 [ J] . 电 气 技 术 与 经 济, 2020 (4) : 1-5. 
LU Z T, LE Y J, WU Y J, et al. Mechanical force modeling and analysis of submarine cable construction [ J] . Electrical equipment and economy, 2020(4) : 1 -5.
 [6] 卢志飞, 何旭涛, 林晓波, 等. 洋流冲刷下的海底 电缆动力学有限元分析[ J] . 电线电缆, 2017( 5) : 6-8, 12. 
LU Z F, HE X T, LIN X B, et al. Dynamic finite element analysis of submarine cable under ocean current scouring[ J] . Wire & cable, 2017(5) : 6-8, 12.
 [7] 王光斌, 杨海马, 杨晖, 等. 电力电缆循环加热试 验中热 力 学 工 态 研 究 [ J] . 郑 州 大 学 学 报 ( 工 学 版) , 2015, 36(1) : 105-109. 
WANG G B, YANG H M, YANG H, et al. The research of power cable cyclic heating thermodynamic [ J ] . Journal of Zhengzhou university ( engineering science) , 2015, 36(1) : 105-109.
 [8] 邵冬亮, 孙永鑫, 刘海涛, 等. 走滑断层作用下光 纤复合海底电缆的力学响应规律研究[ J] . 中国海 洋大学学报(自然科学版) , 2019, 49(增刊 1) : 148 -154. 
SHAO D L, SUN Y X, LIU H T, et al. Mechanical responses of fiber-optic composite submarine cable under strike-slip fault movements [ J] . Periodical of ocean university of China, 2019, 49( S1) : 148-154.
 [9] 胡玉娇. 光纤复合海底电缆机械行为的有限元模 型研究[D] . 北京: 华北电力大学, 2018. 
HU Y J. Research on finite element model of optical fiber composite submarine cables mechanical behavior [D] . Beijing: North China Electric Power University, 2018. 
[10] 王振宁. 应急抛锚载荷作用下海底管道埋深数值 模拟研究[D] . 武汉: 武汉理工大学, 2016. 
WANG Z N. Numerical simulation research of submarine pipeline depth against emergency anchor loading [D]. Wuhan: Wuhan University of Technology, 2016. 
[11] GAO Q, DUAN M L, LIU X X, et al. Damage assessment for submarine photoelectric composite cable under anchor impact [ J ] . Applied ocean research, 2018, 73: 42-58.
 [12] 朱跃峰. 基于 ABAQUS 的显式动力学分析方法研 究 [ J ] . 机 械 设 计 与 制 造, 2015 ( 3 ) : 107 - 109, 113. ZHU Y F. Research on analysis methods of explicit dynamics based on ABAQUS[ J] . Machinery design & manufacture, 2015(3) : 107-109, 113.
 [13] 张三川, 王家岭, 李霞. 基于 ANSYS / LS-DYNA 的 校车后防撞钢梁碰撞安全性能研究[ J] . 郑州大学 学报(工学版) , 2013, 34(2) : 112-115. 
ZHANG S C, WANG J L, LI X. The study of the crush safety of the rear anti-collision beam of the school bus based on ANSYS / LS-DYNA[ J] . Journal of Zhengzhou university ( engineering science ) , 2013, 34(2) : 112-115.

更新日期/Last Update: 2022-07-03