摘要
随着新疆塔里木油田钻井深度的不断攀升,其地壳内部岩浆的化学成分更加复杂,采油油管的长度要求也不断提高,因此对油管的耐腐蚀性能和力学性能提出了越来越高的要求。传统的金属油管由于强度不足,耐腐蚀性能差而无法满足深井采油的需求。非金属聚合物基复合材料油管因具有可调节的力学性能及高的耐磨抗蚀性能而逐渐获得青睐。另外,井深的提高迫切需要超长的聚合物基复合材料油管,然而其力学性能却很难从实验上进行测量。因此采用有限元模拟计算开展油管力学性能的优化计算与预测具有十分重要意义。本文针对10,000米超长非金属聚合物基复合材料油管,采用一维线性单元技术Pipe288,开展油管力学性能的优化与计算,实现了10,000米超长非金属聚合物基复合材料油管力学性能的计算。本文首先根据多尺度协同增强复合材料油管的结构特点,建立了一维线性单元的力学模型,利用ANSYS软件,基于Pipe288单元,建立了10,000米超长非金属聚合物基复合材料油管的有限元模型,分析了油管在不同的工况下的应力、应变和变形的分布规律,探讨了油管的力学性能和可靠性的影响因素,验证了本文的模型和方法的准确性和有效性。
As the drilling depth of the Tarim Oilfield in Xinjiang Province continues to climb,the chemical composition of the magma inside the crust becomes more complex,and the length requirements of oil production tubing are also increasing.Therefore,higher and higher requirements are put forward for the corrosion resistance and mechanical properties of tubing.The traditional metal tubing cannot meet the needs of deep well oil production due to insufficient strength and poor corrosion resistance.Non-metallic polymer matrix composite tubing has gradually gained popularity due to its adjustable mechanical properties and high wear and corrosion resistance.In addition,the improvement of well depth urgently requires ultra-long polymer matrix composite tubing,but its mechanical properties are difficult to measure experimentally.Therefore,it is of great significance to use the finite element simulation to carry out the optimization calculation and andpre-diction of the mechanical properties of the tubing.In this paper,for the 10,000-meter ultra-long non-metallic polymer matrix composite oil pipeline,the one-dimensional linear unit technology Pipe288 is used to carry out the optimization and calculation of the mechanical properties of the oil pipeline,and the calculation of the mechanical properties of the 10,000-meter ultra-long non-metallic polymer matrix composite oil pipeline is realized.Firstly,according to the structural characteristics of the multi-scale collaboratively reinforced composite oil pipeline,the mechanical model of one-dimensional linear unit is established,and using ANSYS software,based on Pipe288 unit,the finite element model of 10,000 meters of ultra-long non-metallic polymer-based composite oil pipeline is established,and the distribution law of stress,strain,and deformation of the oil pipeline under different working conditions is analyzed,and the mechanical properties and reliability of the oil pipeline are explored,and reliability of the oil pipe,and verified the accuracy and validity of the model and method in this paper.
作者
苏佳卉
何代华
吴倩
李嘉雪
赵伟玲
杨群
王亮
Jiahui Su;Daihua He;Qian Wu;Jiaxue Li;Weiling Zhao;Qun Yang;Liang Wang(School of Materials and Chemistry,University of Shanghai for Science and Technology,Shanghai;Integrated Computational Materials Research Centre,Shanghai Institute of Ceramics,Chinese Academy of)
出处
《建模与仿真》
2024年第3期2408-2419,共12页
Modeling and Simulation
关键词
深井
超长聚合物基复合材料油管
力学性能
有限元模拟
Deep Well
Ultra-Long Polymer Matrix Composite Tubing
Mechanical Properties
Finite Element Simulation
