爆轰冲击载荷作用下射孔段管柱动力响应分析

摘要
图/表
参考文献(29)
相关文章 (15)

全文: PDF (1550 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要聚能射孔爆轰过程产生的巨大冲击波作用于管柱，冲击载荷和狭长、复杂井筒边界下的管柱动力响应与安全性研究未见文献报道。本文基于有限元建模和理论方法分析射孔管柱动力响应以期为管柱强度安全分析提供依据。应用振动力学悬臂梁理论，考虑管柱自重及轴向冲击载荷作用，建立管柱动力学模型，导出管柱纵向振动微分方程，应用分离变量法求解，得到管柱振动固有频率、主振型及位移动力响应表达式。应用Workbench模块，基于有限元瞬态动力学方法，以2 7/8＂5.51 mm P110油管为对象，建立射孔段管柱三维有限元模型，作用井下实测冲击载荷，分析管柱的动力响应规律。结果表明，管柱固有频率有限元解和解析解平均相对差4.18%，有限元法满足精度要求。位移、速度、加速度随时间以15 ms周期变化，9ms时，管柱压缩最大值为19.15 mm，95ms时，管柱伸长最大值为9.1 mm。自由端速度达到最大值5.45m/s；加速度达到最大值2.85 km/s2。管柱应力波传播速度约4930 m/s，与理论结果5123 m/s相近。采用本文的有限元建模和理论方法分析射孔管柱动力响应满足精度要求；据此得到的射孔管柱速度、加速度和应力变化规律可指导实际生产；并可为复杂边界条件的细长杆振动研究提供参考。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	李明飞1
	2
	徐绯1
	窦益华2

关键词 ：油气井开采, 冲击载荷, 射孔管柱, 动力响应, 瞬态分析

Abstract：The dynamic responses of perforated tubular columns under the huge shock waves generated by the detonation process of shaped perforation were analysed by using the finite element modeling and theoretical method in order to provide a basis for the strength and safety analysis of tubular columns.Applying the cantilever beam theory and considering the effect of the column's own weight and axial impact load, a dynamic model of the pipe column was established, and the longitudinal vibration differential equation of the pipe string was derived.The variable separation method was used to solve the natural frequency and main vibration mode of the pipe string.Using the Workbench module, based on the finite element transient dynamics method, the 3D finite element model of a 27/8＂×5.51 mm P110 oil pipe was built.The impact load was measured in situ and the dynamic responses of the pipe string were analyzed.The results show that the relative deviation between the finite element solution and the analytical solution with respect to the natural frequency of the pipe string is 4.18%, which indicates that the finite element method satisfies the accuracy requirement.The displacement, velocity, and acceleration vary with a time period of 15 ms, and at 9 ms, the maximum compression value of the column is 19.15.At 95 ms, the maximum column elongation is 9.1 mm, the free end velocity reaches a maximum of 5.45 m/s, the acceleration reaches a maximum of 2.85 km/s2, and the propagation velocity of the stress wave of the column is about 4 930 m/s, which is very close to the theoretical result of 5 123 m.The results provide a basis for theoretically studing the behaviors of slender rods in under water explosion and also give a reference to guide the actual production.

Key words： Oil and gas well mining impact loading perforated pipe string dynamic response transient analysis

收稿日期: 2018-06-27 出版日期: 2019-09-15

引用本文:

李明飞1,2，徐绯1，窦益华2. 爆轰冲击载荷作用下射孔段管柱动力响应分析[J]. 振动与冲击, 2019, 38(18): 185-191.
Li Mingfei1,2，Xu Fei1，Dou Yihua2. Dynamic response analysis of a perforated pipe string under detonation impact load. JOURNAL OF VIBRATION AND SHOCK, 2019, 38(18): 185-191.

链接本文:

http://jvs.sjtu.edu.cn/CN/ 或 http://jvs.sjtu.edu.cn/CN/Y2019/V38/I18/185

[1] 潘德凯，马峰，王树山. 矩形射孔弹射流形成机理的微元法数值分析研究[J]. 振动与冲击， 2017， 36(8):121-124.
PAN Dekai, MA Feng, WANG Shushan. Numerical Analysis of the Formation Mechanism of Jets with Rectangular Perforating Charges by Finite Element Method[J]. Journal of Vibration and Shock, 2017, 36(8): 121-124.
[2] 贺振国，李根生，石李保，等. 围压对超临界二氧化碳射流冲击力与冲蚀射孔的影响[J]. 振动与冲击， 2017， 36(2):65-71.
HE Zhenguo, LI Gensheng, SHI Libao, et al. Effects of ambient pressure on the impinging pressure and rock erosion performance of supercritical CO2 jet[J]. Journal of Vibration and Shock, 2017, 36(2): 65-71.
[3] 黄显辉，窦益华，许爱荣等. 高温高压深井射孔卡枪原因分析及对策[J]. 石油机械，2008，36(9): 182-184.
HUANG Xianhui, DOU Yihua, XU Airong. Analysis and Countermeasures of High-pressure and High-pressure Deep-hole Perforating Cartons[J]. China Petroleum Machinery, 2008, 36(9): 182-184
[4] 窦益华，徐海军，姜学海等. 射孔测试联作封隔器中心管损坏原因分析[J]. 石油机械，2007，35(9)：113-115.
DOU Yihua, XU Haijun, JIANG Xuehai, et al. Analysis of Perforating Test and Damage Caused by Central Tube of Packer [J]. China Petroleum Machinery, 2007, 35(9): 113-115
[5] Hill R J, Jarvie D M, Zumberge J, et al. Oil and gas geochemistry and petroleum systems of the Fort Worth Basin[J]. Aapg Bulletin, 2007, 91(4):445-473.
[6] Suneson N H. Arkoma Basin Petroleum - Past, Present, and Future[J]. Oklahoma City Geological Society, 2012, 63(1):38-70.
[7] 范天峰，李魁武，王宝元. 某自行高炮动力学分析[J]. 火炮发射与控制学报，2005，27(3)：11-14.
FAN Tianfeng, LI Kuiwu, WANG Baoyuan. Dynamic analysis of a self-propelled anti-aircraft gun[J]. Journal of Gun Launch & Control, 2005, 27(3): 11-14
[8] 赫雷，周克栋，张中利等. 超高射速武器低后坐力技术研究[J].火炮发射与控制学报，2008，30(1)：88-91.
HE Lei, ZHOU Kedong, ZHANG Zhongli, et al. Research on Low Recoil Technology of Ultra High-speed Weapon[J]. Journal of Gun Launch & Control, 2008, 30(1): 88-91
[9]Fei Xu, Mingfei Li , Yihua Dou. The Analysis of the Influence of Perforating Parameters on the Strength Security of Perforation String [A]. 2nd International Conference on Applied Mechanics, Materials and Manufacturing Vol[C].Changsha: Trans Tech Publications, Switzerland,2012: 514-517.(EI:20130415941291)
[10]Xiangtong Yang, Fuxiang Zhang, Mingfei Li, and Yihua Dou. Analysis of Strength Safety of Perforated String Considering Detonation Parameters [A]. 2nd International Conference on Chemical, Material and Metallurgical Engineering Vol[C].Kunming: Trans Tech Publications, Switzerland, 2012: 3573-3576. (EI:20130616001119)
[11] William Sanders, Carlos Baumann, Harvey Williams. Efficient Perforation of High-Pressure Deepwater Wells[C]. Offshore Technology Conference. Houston :OTC, 2011: 1-10.
[12]Carlos Baumann, Harvey Williams. Perforating High-Pressure Deepwater Wells in the Gulf of Mexico[C]. Society of Petroleum Engineers .Macaé:SPE, 2011: 1-13.
[13] Carlos Baumann, E.Bustillos, J.Guerra. Reduction of Perforating Gunshock Loads[C]. Society of Petroleum Engineers .Macaé:SPE, 2010: 1-11.
[14] Jack Burman, Martin Schoener-Scott, C. Le, D. Suire. Designing Completions after Predicting Wellbore Dynamic-Shock Loads During Perforating[C]. Society of Petroleum Engineers .Macaé:SPE, 2011: 1-14.
[15] Jack Burman, Martin Schoener-Scott, C. Le, D. Suire. Predicting Wellbore Dynamic-Shock Loads Prior to Perforating[C]. Society of Petroleum Engineers .Macaé:SPE, 2011: 1-13.
[16] 周海峰，马峰，陈华彬，等. 射孔段管柱动态载荷综合测试[J]. 测井技术，2014，38(2)：247-250.
ZHOU Haifeng, MA Feng, CHEN Huabin, et al. Perforating segment string dynamic load comprehensive test[J]. Well Logging Technology, 2014, 38(2): 247-250.
[17] 卢熹，王树山，马峰，等. 爆炸冲击作用下射孔管柱动力学响应试验[J]. 科学技术与工程，2014，14(33)：53-56.
LU Xi, WANG Shushan, MA Feng, et al. Dynamic response test of perforating pipe string under impact of explosion[J]. Science Technology and Engineering, 2014, 14(33): 53-56.
[18]However I. Study on Dynamic Response of Downhole Tools under Perforation Impact Load[J]. Shock and Vibration,2017,(2017-8-24), 2017, 2017(2):1-10.
[19] Baumann C, Barnard K, Anbao L, et al. Prediction and Reduction of Perforating Gunshock Loads [C]. International Petroleum Technology Conference, 2013, SPE-163549-MS.
[20] Baumann C, Lazaro A, Valdivia P, et al. Perforating Gunshock Loads: Prediction and Mitigation[C]. SPE/IADC Drilling Conference, 2013，IPTC-16744-MS.
[21] 蔡履忠，赵烜，薛世峰，等. 射孔作业过程管柱结构动态响应分析[J]. 石油矿场机械，2015，44(5)：26-30.
CAI Lvzhong, ZHAO Xuan,XUE Shifeng, et al. Dynamic response analysis of string structure during perforating operation[J]. Oil Field Equipment, 2015, 44(5): 26-30.
[22]陈锋，陈华彬，唐凯, 等. 射孔冲击载荷对作业管柱的影响及对策[J]. 天然气工业， 2010， 30(5): 61-65.
CHEN Feng, CHEN Huabing, TANG Kai, et ai. Influence of Perforating Impact Load on Operating Strings and Countermeasures[J]. Natural Gas Industry, 2010, 30(5):61-65.
[23] Antonio Canal,Repsol,Priscilla Miletto.Predicting Pressure Behavior and Dynamic Shock Loads on Completion Hardware during Perforating[C].Offshore Technology Conference.Houston：OTC, 2010: 1-11.
[24] Rodgers J P. Perforation gun string energy propagation management with tuned mass damper[J]. 2015.
[25] Pedro M D, Pahud P. Vibration Mechanics[M]. Springer Netherlands, 1991.
[26]Wu S R, Gu L. Introduction to the Explicit Finite Element Method for Nonlinear Transient Dynamics[M]// Introduction to the explicit finite element method for nonlinear transient dynamics. Wiley, 2012:11-35.
[27] Sofrygina O A, Zhukova S Y, Bityukov S M, et al. Economical steels for the manufacture of high-strength oil pipe (according to the API Spec5CT standard)[J]. Steel in Translation, 2010, 40(7): 616-621.
[28]Carlos Baumann, Keith Barnard, Harvey Williams. Gunshock Risk Evaluation when Perforating High Pressure Wells[C].Society of Petroleum Engineers.San Antonio :SPE159119, 2012: 1-13.
[29] Baumann C, Lazaro A, Valdivia P, et al. Perforating Gunshock Loads - Prediction and Mitigation[M]. 2013.