封隔器系统工作行为仿真研究
摘要
本文从系统的角度出发,综合应用弹塑性力学、接触有限元理论、数值分析方法、计算机仿真技术等多学科知识,在国内率先建立了考虑胶筒非线性、大变形特征的封隔器系统工作行为仿真模型,并通过实验建立了封隔器胶筒材料在井底实际工况下的本构关系模型。为了将所建立的仿真模型更好地应用到封隔器的设计上,本文运用混合编程思想开发了具有自主知识产权的封隔器系统工作行为仿真软件,并在自行设计的封隔器试验台架上完成了Y341-148型封隔器台架试验,验证了所建立数学模型和所开发仿真软件的正确性,为封隔器及井下工具的设计、改进和新产品开发提供了一种新的理论方法和技术手段,进一步提高了我国封隔器的设计理论和研究水平。论文的研究工作及创新点主要体现在以下几个方面:
(1) 建立了Y341-148型封隔器零部件的三维实体模型,进行了结构装配和运动干涉检验,运用有限元分析软件对其关键零部件进行了有限元分析和结构优化,根据分析结果对现有封隔器的结构提出了改进意见,增强了现有Y341-148型封隔器的可靠性,提高了其工作性能;
(2) 胶筒是封隔器的关键部件,由于目前国内尚缺乏封隔器胶筒在井底实际工况下的材料力学性能参数,本文采用中国燃气涡轮研究院的SB802热-机综合疲劳试验机开展了封隔器胶筒目前所用4种橡胶材料在模拟实际工作环境下的力学性能试验研究,测定了这4种橡胶材料在不同载荷、不同温度下的应力-应变数据,建立了与井下实际工况相对应的胶筒材料本构关系,为建立封隔器胶筒接触有限元模型、封隔器系统工作行为仿真模型提供了数据基础,为仿真软件的运行提供了可靠的参数;
(3) 根据封隔器胶筒在工作过程中的非线性、大变形特征,将胶筒柔性体与胶筒座、套管壁等刚性体运动过程中的接触区域处理为持续变化的非线性边界条件,建立了封隔器胶筒的非线性接触有限元模型。模型中采用变节点的四边形等参单元,依据结构特征、应力集中程度确定了网格大小密度和分布方式,预设了结构尺寸参数以便于结构尺寸变化后网格自动离散。该模型的建立为开展封隔器系统在井底真实工况下的工作行为仿真研究奠定了基础:
(4) 综合运用弹塑性力学及有限元分析的理论和方法,根据封隔器的工作状态和其零部件在工作过程中的运动、受力、变形特征及其相互作用关系,将封隔器简化为轴对称形式,率先在国内建立了考虑胶筒大变形特征的封隔器系统工作行为仿真模型,该模型可以模拟封隔器在坐封、密封、解封三种工况下的运动过程和力学行为,真实的反应封隔器在工作过程中包括胶简在内各零部件的运动、受力和变形情况,为封隔器的设计和新产品的开发提供了新的理论依据;
(5) 针对仿真模型中胶筒柔性体的非线性、大变形特征和金属零件的线性、小变
In this paper, from a system point, through setting up packer system linear and non-linear contact finite element analyzing models the packer system's working action simulating research are developed by the way of compute simulating technic combined with production fact, which provide the new theory reference and method for analyzing the packer's down-hole working performance and designing new type of packer. The paper's main contents come from the science research named the Structure Optimizing and Working Action Simulating Research of Down-hole Packer that are developed by South West Petroleum Institute and JiangHan Oil Withdrawal Technology Research Institute that is a subcompany of China Petrochemical Corporation in JiangHan oil field. The detail research works are as follows:
1. The mechanics performance experiment to the four rubber materials of packer that are provided by JiangHan Oil Withdrawal Technology Research Institute have been completed using Fuel Gas Turbine Academy of China's SB802 heat& machine compositive fatigue tester. The mechanics performance of four rubber materials under different load and temperature condition have been determined and the rubber materials' constitutive relation models have been gained, which provide the requisite material parameter for establishing the packer system's finite element simulating models;
2. For setting up scientific and rational finite element models, the rational simplification to the packer system is completed and the twenty-two parts' discretization are realized according to the finite element analyzing demand. Determining the finite element's shape, number and division project, setting up the all parts' structure, elements and node division project data-base and realizing the mesh's automatic division using the finite element program developed; Using the theory of contact linear and non-linear finite element, establishing the packer system's seating, sealing and release sealing working process finite element models and working action simulating models combined the packer's working mechanism and structure feature. Researching the packer system's frictional contact problem by the way of virtual contact loads and simulating the packer's working process correctly; To the non-linear large deformation problem of sealing rubber, it's large deformation feature and law of motion embody the packer's seating and sealing working process. In the paper, establishing the rubber's finite element models and simulating models by the way of geometrical and material non-linear contact problem and realizing the models' solve. Finding out the packer rubber's law of distortion and stress changing status
(1) 建立了Y341-148型封隔器零部件的三维实体模型,进行了结构装配和运动干涉检验,运用有限元分析软件对其关键零部件进行了有限元分析和结构优化,根据分析结果对现有封隔器的结构提出了改进意见,增强了现有Y341-148型封隔器的可靠性,提高了其工作性能;
(2) 胶筒是封隔器的关键部件,由于目前国内尚缺乏封隔器胶筒在井底实际工况下的材料力学性能参数,本文采用中国燃气涡轮研究院的SB802热-机综合疲劳试验机开展了封隔器胶筒目前所用4种橡胶材料在模拟实际工作环境下的力学性能试验研究,测定了这4种橡胶材料在不同载荷、不同温度下的应力-应变数据,建立了与井下实际工况相对应的胶筒材料本构关系,为建立封隔器胶筒接触有限元模型、封隔器系统工作行为仿真模型提供了数据基础,为仿真软件的运行提供了可靠的参数;
(3) 根据封隔器胶筒在工作过程中的非线性、大变形特征,将胶筒柔性体与胶筒座、套管壁等刚性体运动过程中的接触区域处理为持续变化的非线性边界条件,建立了封隔器胶筒的非线性接触有限元模型。模型中采用变节点的四边形等参单元,依据结构特征、应力集中程度确定了网格大小密度和分布方式,预设了结构尺寸参数以便于结构尺寸变化后网格自动离散。该模型的建立为开展封隔器系统在井底真实工况下的工作行为仿真研究奠定了基础:
(4) 综合运用弹塑性力学及有限元分析的理论和方法,根据封隔器的工作状态和其零部件在工作过程中的运动、受力、变形特征及其相互作用关系,将封隔器简化为轴对称形式,率先在国内建立了考虑胶筒大变形特征的封隔器系统工作行为仿真模型,该模型可以模拟封隔器在坐封、密封、解封三种工况下的运动过程和力学行为,真实的反应封隔器在工作过程中包括胶简在内各零部件的运动、受力和变形情况,为封隔器的设计和新产品的开发提供了新的理论依据;
(5) 针对仿真模型中胶筒柔性体的非线性、大变形特征和金属零件的线性、小变
In this paper, from a system point, through setting up packer system linear and non-linear contact finite element analyzing models the packer system's working action simulating research are developed by the way of compute simulating technic combined with production fact, which provide the new theory reference and method for analyzing the packer's down-hole working performance and designing new type of packer. The paper's main contents come from the science research named the Structure Optimizing and Working Action Simulating Research of Down-hole Packer that are developed by South West Petroleum Institute and JiangHan Oil Withdrawal Technology Research Institute that is a subcompany of China Petrochemical Corporation in JiangHan oil field. The detail research works are as follows:
1. The mechanics performance experiment to the four rubber materials of packer that are provided by JiangHan Oil Withdrawal Technology Research Institute have been completed using Fuel Gas Turbine Academy of China's SB802 heat& machine compositive fatigue tester. The mechanics performance of four rubber materials under different load and temperature condition have been determined and the rubber materials' constitutive relation models have been gained, which provide the requisite material parameter for establishing the packer system's finite element simulating models;
2. For setting up scientific and rational finite element models, the rational simplification to the packer system is completed and the twenty-two parts' discretization are realized according to the finite element analyzing demand. Determining the finite element's shape, number and division project, setting up the all parts' structure, elements and node division project data-base and realizing the mesh's automatic division using the finite element program developed; Using the theory of contact linear and non-linear finite element, establishing the packer system's seating, sealing and release sealing working process finite element models and working action simulating models combined the packer's working mechanism and structure feature. Researching the packer system's frictional contact problem by the way of virtual contact loads and simulating the packer's working process correctly; To the non-linear large deformation problem of sealing rubber, it's large deformation feature and law of motion embody the packer's seating and sealing working process. In the paper, establishing the rubber's finite element models and simulating models by the way of geometrical and material non-linear contact problem and realizing the models' solve. Finding out the packer rubber's law of distortion and stress changing status
引文
1. J. N. Andersen. Full-Scale High-Pressure Stripper/Packer Testing with Wellhead Pressure to 15, 000 psi. SPE, 60699, April 2000;
2. Mustafa Onur. Integrated Nonlinear Regression Analysis of Multiprobe Wireline Formation Tester Packer and Probe Pressures and Flow Rate Measurements. SPE, 56616, October 1999;
3. M.T. Triolo, .F. Anderson, M.V. Smith. Resolving the Completion Engineer's Dilemma: Permanent or Retrievable Packer. SPE, 76711, 20-22 May 2002:
4. John Fothergill. Ratings Standardization for Production Packers. SPE, 80945, 22-25 March 2003;
5. Martin Beveridge, Thomas Robb, Steve Herron. A Novel Underbalanced Perforating Gun Deployment System Using Production Packer Technology Successfully Completes HP/HT Offshore Horizontal Well in a Single Trip. SPE, 78313, 29-31 October 2002;
6. M. Onur, P. S. Hegeman, F. J. Kuchuk. Pressure-Pressure Convolution Analysis of Multiprobe and Packer-Probe Wireline Formation Tester Data. SPE, 77343, October 2002;
7. Rune Freyer, Arve Huse. Swelling Packer for Zonal Isolation in Open Hole Screen Completions. SPE, 78312, 29-31 October 2002;
8. J. A. Trantham, L. F. Anderson. Development of a One-Piece Liner Hanger/Liner Top Packer/Production Packer System for Monobore Wells in Alaska's Kuparuk River Field. SPE, 78285, SPEDC, June 2002;
9. Marvin L. Harris. Innovative Through-Tubing Cement Packer Technique. SPE, 77804, October 2002;
10. P. H. Javora, S. Gosch, S. Berry, R. Pearcy. Development and Application of Insulating Packer Fluids in the Gulf of Mexico. SPE, 73 729, 20-21 February 2002;
11. Loughlin, Michael J. History of and Applications for a Coil-Tubing-Conveyed, Inflatable, Selective Injection Straddle Packer. SPE, 50655, October 1998;
12. Rune Freyer, Arve Huse. Swelling Packer for Zonal Isolation in Open Hole Screen Completions. SPE, 78312, 29-31 October 2002;
13. Loughlin, Michael J. History of and Applications for a Coil-Tubing-Conveyed, Inflatable, Selective Injection Straddle Packer. SPE, 50655, October 1998;
14.田在艺.中国石油工业的发展.石油实验地质,2001,23(1):3-7;
15.张斌,刘清友.计算机仿真技术在石油装备中的应用.天然气工业,2002,22(1):46-47;
16.江汉石油管理局采油工艺研究所.封隔器理论基础与应用.北京:石油工业出版社,1983,11:
17.于同印,曹来庆,刘华等.封隔器失效原因.封隔器理论基础与应用.油气田地面工程,2003,7,81;
18.李钦道,谢光平,张娟.初始管柱压缩量计算分析.钻采工艺,2001,24(6):48-54;
19.李钦道,谢光平,张娟.自由移动封隔器管柱变形量计算分析.钻采工艺,2002,25(1):60-64;
20.李钦道,谢光平,张娟.不能移动封隔器管柱变形受力分析.钻采工艺,2002,25(2):53-57:
21.范家齐等.非线性有限元混合法分析油井封隔器胶筒.石油学报,1991,1;
22.孙逢春,蒋轩,郑慕侨.履带车辆行驶装置橡胶力学性能试验研究.北京理工大学学报,1996,16(4):289-294:
23.邓雄,梁政.测试井封隔器胶筒径向变形探讨.西南石油学院学报,1998,20(1):61-63:
24.陈爱平.压缩式封隔器胶筒耐温耐压浅析.石油机械,1999,27(3):45-48;
25.岳澄、王燕群,邵立国等.高温封隔器胶筒与套管接触压力的实验研究.实验力学,1999,14(3):390-394;
26.徐立,吴桂忠等.有限元分析中橡胶应变能函数的若干形式.橡胶工业,1999,12:
27.王彦兴.KZ113-5-50(H)型胶筒的研制与使用.石油矿场机械,2000,29(1):12-14:
28.葛乐清.采油用封隔器密封问题的探讨.长春光学精密机械学院学报,2000,23(3):64-67;
29.王增林.膨胀式长胶简封隔器及其应用.石油钻采工艺,2000,22(4):34-36;
30.张系斌,王越之,夏宏南等.压差作用下封隔器胶筒与井壁间的剪应力分析.石油机械,2000,28(6);
31.高金榜.油井封隔器厚壁胶筒的模具结构和硫化工艺.橡胶工业,2000,47(12):730-733:
32.陈爱平,周忠亚.O形密封圈和密封圈槽的选配及应用.石油机械.2000,28(5):49-51:
33.刘天良,施纪泽.封隔器胶筒对套管接触应力模拟试验研究.石油机械,2001,29(2):10-11;
34.刘天良,施纪泽.封隔器封隔时胶皮筒接触应力的模拟试验研究.断块油气田, 2001,7(4):51-52,69;
35.耐高温高压封隔器胶筒的研制.橡胶工业,2002,49(5):317-318:
36.侯宗,毛道华,朱建民等.封隔器压缩胶筒“防突”新结构.石油机械,2002,30(9):49-50:
37.A.N.詹特.橡胶工程.如何设计橡胶配件.北京:化学工业出版社,材料科学与工程出版社,2002,11;
38.周先军,负平利,季公明.封隔器胶筒接触应力分布有限元计算.钻采工艺,2002,25(4):51-52,57;
39.季公明,周先军,贠平利.封隔器胶筒接触应力的数值模拟分析.石油矿场机械,2002,31(5):46-47;
40.王燕群,岳澄,邵立国.逆解法求封隔器胶筒与石油套管内壁挤压应力.天津大学学报,2002,35(5):634-636:
41.杨秀娟,杨恒林.液压封隔器胶筒座封过程数值分析.石油大学学报(自然科学版),2003,27(5):84-87;
42.李世民,韩进,吕西绍等.小直径封隔器胶筒的研制.橡胶工业,2003,50(6):357-359:
43.高志刚,高波,孟楠.喇嘛甸油田注入井高渗透层胶筒封堵技术研究.大庆石油地质与开发,2003,22(3):75-77;
44.刘占广.卡瓦式封隔器在井下的受力分析.石油钻采工艺,1994,16(5):53-59;
45.窦益华,胡宏涛,赖茂宏等.井下工具零件应力分析及其软件设计.石油机械,1995,23(8):4-7;
46.刘凤梧,徐秉业,高得利.封隔器对油管螺旋屈曲的影响分析.清华大学学报自然科学版,1999,39(8):104-107:
47.杨茂楠,孙景学.341—115A封隔器设计.钻采工艺.1999,22(1):38-39:
48.王岚,张立勋,陆海军等.封隔器工作状态模拟系统.应用科技,2000,27(2):12-13:
49.李钦道,谢光平,张娟.井内有流体时管柱弯曲临界力分析.钻采工艺,2001,24(4):44-46;
50.李钦道,谢光平,张娟.“虚力”产生的原因及特点分析.钻采工艺,2001,5:67-74;
51.程智远,郭群,强华.y341—115注水封隔器移动的计算和防止.199,22(2):40-42;
52.赵玉华等.Y341-114注水封隔器.石油机械,1990,3;
53.李俊明,王凤山,何光芒等.超高压压力控制及开关液压系统.石油机械,1998,26(4):5-10;
54.刘玉民,韩海生.CYY443——146导斜封隔器及管柱的研制与应用.石油机械, 1999,27(3):31-33;
55.薛新生,魏跃进,徐书军等.Fxy445-114自验封封隔器的结构及应用.钻采工艺,2000,23(4):65-67:
56.谷开昭、张富仁,古光明.Y441B型双向锚定封隔器结构分析.石油机械,1997,25(6):1-4:
57.冯耀中,向正杰,韦修海等.磁性粘弹体封隔器的开发与应用.石油机械,1997,25(3):27-29;
58.李敢,冯永泉.Y441系列双压差逐级解封封隔器.油气采收率技术,1997,4(3):72-76;
59.魏军.新型跨隔封隔器设计及应用效果分析.石油仪器,1998,12(2):26-29;
60.王学宏,单晶,杨康敏等.HNX344—114型皮碗封隔器的研究与应用.石油机械.1999,27(11):35-36;
61.邓小伟,李倩,赵奇祥等.ZYY341—114GX高压注水封隔器.石油机械.1999,27(9):35-36;
62.崔奋,李勇.Y411—115型可取式双卡瓦封隔器.石油机械.1999,27(7):21-23,54:
63.王家印,李才训,陈代文.Y341-114封隔器及组合管柱在注水井卡漏工艺中的应用.钻采工艺.1999,6(4):59-60:
64.王志清,雷雨田,刘崇利等.HNY441双向锚定封隔器.石油机械,2000,28(3):32-34;
65.杨应奎,檀朝东,颜中云.QHY341型封隔器及应用.钻采工艺.2001,24(2):46-47;
66.韩玉安、孙艳龙,姜树文等.φ88.9mm侧钻水平井套管外封隔器的研制与应用.石油机械,2000,28(9):28-30;
67.唐庆春,李志军,曹志军.Y211-76型小直径封隔器的研制与应用.石油机械,2000,28(10):37-38:
68.刘玉民,韩海生,许国林等.用于固井清水顶替作业的套管外封隔器.石油机械.2000,28(11):37-28;
69.程志强,陈雷.WJK跨隔封隔器在鄂深4井中的应用.石油钻探技术.2000.28(3),34-35:
70.曾嵘.CYY344系列高压酸化压裂封隔器.石油机械,2000,28(12):27-29:
71.程智远,强华,王庆菊.DGY241-114多功能封隔器.钻采工艺.2001,24(4):52-53:
72.自学东,耿玉乾,祁连秋.P-T封隔器在异常高压低渗透层渗漏原因初探.油气井测试.2001,10(1,2):67-68,74:
73.智勤功,谢金川,韩得民.Y445-150型防中途坐封安全处理封隔器.石油机械.2001,29(12):31-33:
74.黎文才,张胭脂,董建伟.ZYT441—114桶式卡瓦封隔器的研制.石油机械.2001,29(4):36-37;
75.董社霞,季公明,孙宝权.浅析Baker和Halliburton的双管封隔器.石油矿场机械,2001,29(1):43-46:
76.崔海霞,范春宇,丁晓芳.注水封隔器上压控制式洗井机构设计分析.石油机械.2002,30(6):19-20:
77.张顺,王玉普,林春明.DQYK344-114堵水封隔器的研制.石油钻采工艺.2002,24(2),71-73:
78.李晶等,陈德林,祝杨.GDY445型封隔器的研制与应用.石油矿场机械,2001,30(6):38-40:
79.柴国兴,李文波,王登庆.SLY341E液压封隔器的研制.石油钻采工艺.2001,23(5):79-80:
80.候宗.Y342-114封隔器的研制与应用.石油钻采工艺,2002,1;
81.孟祥鹏,任龙,朱安庆.ZJY341—114型注聚井套保封隔器.油气田地面工程.2001,20(5):71;
82.常会军,谢圣龙,李明琴.水力压缩式封隔器卡水管柱在抽油井上的应用.石油钻探技术.2002,30(5):58-59;
83.刘斌,罗懿.Y341~4/105(110)小直径堵水封隔器的研究和应用.西部探矿工程.2002,78(5):65-66:
84.石建设,顾春元,龙远强.软卡瓦注水封隔器的研制与应用.石油机械.2003,31(增),51-53;
85.崔奋,马庆贤.Y342系列封隔器的研制与应用.石油钻采工艺.2003,32(2):39-41:
86.胡风涛.Y441E型液压封隔器.石油机械,2002,30(1):12-13,24;
87.闫乐好,段长军.油田注水用封隔器密封性能的分析与研究.阀门,2002,3:22-24:
88.盖旭波,王兴伟,李占军等.G6型封隔器工作原理及应用.钻采工艺,2002,25(4):91-92:
89.马国兴,鲁青玲,李国保.QHY331型自封式封隔器的研制与应用.石油机械,2002,30(8):38-30:
90.李志升,周继斌,李际瑞等.一体两级封隔器的研究与应用.石油机械,2002,30(11):28-30:
91.陈宁.Y241-114封隔器研究与应用.钻采工艺,2003,26(1):50-51,67:
92.赵百万[译].用于大型钻井作业的膨胀式作业封隔器.石油机械.2003,31(6): 73;
93.王隆慧,刘汝福,韩进等.Y341-110QJ型封隔器的研制与应用.石油矿场机械,2003,32(1):22-24;
94.柴国兴,曹雪梅,李文波等.液压封隔器自验封技术的研究及应用.石油矿场机械.2003,32(4):42-44;
95.王峰,苟天成,张晓健等.ZY755-6型封隔器的研制与应用.石油矿场机械,2003,32(2):55-56.
96.崔奋,马庆贤.Y342系列封隔器的研制与应用.石油矿场机械,2003,32(2):39-41;
97.陈莉.可洗井自验封Y341-115型封隔器的研制与应用.石油矿场机械,2003,32(3):49-50:
98.程心平,党伟.Y422—117可取式封隔器的结构及应用.钻采工艺.1999,22(2):37-39;
99.申兴哲,孙宝泉,董社霞等.DBF-152型电潜泵封隔器的研制与应用.石油机械,2003,31(2):28-30;
100.魏瑞玲,臧洪河,陆宗林等.Y341-114型气举封隔器在文东油田的应用.石油机械,2003,31(3):40-41.
101.刘庆峰,张瑜瑾,郑永生等.BK361系列补偿式热采封隔器.石油机械,2003,31(3):36-37;
102.申兴哲,孙宝全,董社霞等.DBF—152型电潜泵封隔器的研制与应用.石油机械.2003,31(2):28-30;
103.代理震,康宜华.可钻可取式注水封隔器的研究.石油机械,2002,30(5):28-30:
104.谢忠盛.裸眼筒形封隔器在四川油气井中的应用.西部探矿工程.1999,11(5):
105.李哮南,逯国成,黄侠.水平井用液压封隔器坐封工艺技术研究,石油机械.2004,32(8):45-46;
106.刘文江,徐建春,孙爱军.热胀式封隔器用于稠油热采井.油气田地面工程.2004,23(6):60;
107.蒋友谅.非线性有限元法.北京:北京工业学院出版社,1988,6;
108.张汝清等.非线性有限元分析.重庆:重庆大学出版社,1990,1;
109.杨菊生等.有限元法程序设计.陕西:西安交通大学出版社,1990,6;
110.檀朝东,周晓东,饶鹏.一次多层压裂封隔器的研制及应用.石油钻采工艺.1999,21(4):99-106;
111.程心平[译],陈贵和[校].高效膨胀式封隔器的设计和试验.国外石油机械.1999,10(3):55-62:
112.柴国兴,辛林涛,谷开昭等.ZF皮碗封隔器及其应用.钻采工艺.1999,22(2):43-45:
113.赵佩华[译].卡麦隆公司开发出两种新式闸板封隔器.国外石油机械.1999,10(2):30;
114.饶鹏,檀朝东,李修文.QHY341型压裂封隔器的研制及应用.石油机械.2000,28(7):24-26;
115.朱宪辉,冯春健.浅海导管架平台新型封隔器的开发与应用.石油规划设计.2000,11(6):32-33;
116.王吉兴,王红梅,王方林等.新型K341型测试封隔器及改进.油气井测试.2001,10(6):66-67;
117.李人宪.有限元法基础.北京:国防工业出版社,2002,5;
118.赵煊,季公明,王进京等.新型砾石充填悬挂工具——CTXGF封隔器.石油钻采工艺.2002,24(3):77-78:
119.Ted Bclytschko 等.连续体和结构的非线性有限元.北京:清华大学出版社,2002,12;
120.西南石油学院.弹性和塑性力学中的有限单元法.四川:西南石油学院出版社,2003,5:
121.彭国伦等.Fortran95程序设计.北京:中国电力出版社,2002,9:
122.Steven Holzner 等.Visual Basic 6技术内幕.北京:机械工业出版社,1999,4;
123.邹跟宝.采油工程.北京:石油工业出版社,1998,10:
124.赵华.博士后工作总结报告.四川成都西南交通大学,1994,3;
125.易大义等.数值分析引论.浙江:浙江大学出版社,1998,9:
126.俞茂纮等.材料力学.北京:高等教育出版社,1986,5:
127.刘迎春等.传感器原理设计与应用.北京:国防科技大学出版社,1993,6:
128.湛精华,王国荣,刘清友.井下封隔器应用与研究现状.四川大学学报(工程科学版),2003,35(增刊,9月):75~78:
129.刘清友,黄云,湛精华,王海兰.井下封隔器及其各部件工作行为仿真研究.石油仪器,2005年,19(1):1~5:
130.刘清友,黄云,湛精华.井下封隔器接触有限元模型研究.钻采工艺,2005,28(2):58~60:
2. Mustafa Onur. Integrated Nonlinear Regression Analysis of Multiprobe Wireline Formation Tester Packer and Probe Pressures and Flow Rate Measurements. SPE, 56616, October 1999;
3. M.T. Triolo, .F. Anderson, M.V. Smith. Resolving the Completion Engineer's Dilemma: Permanent or Retrievable Packer. SPE, 76711, 20-22 May 2002:
4. John Fothergill. Ratings Standardization for Production Packers. SPE, 80945, 22-25 March 2003;
5. Martin Beveridge, Thomas Robb, Steve Herron. A Novel Underbalanced Perforating Gun Deployment System Using Production Packer Technology Successfully Completes HP/HT Offshore Horizontal Well in a Single Trip. SPE, 78313, 29-31 October 2002;
6. M. Onur, P. S. Hegeman, F. J. Kuchuk. Pressure-Pressure Convolution Analysis of Multiprobe and Packer-Probe Wireline Formation Tester Data. SPE, 77343, October 2002;
7. Rune Freyer, Arve Huse. Swelling Packer for Zonal Isolation in Open Hole Screen Completions. SPE, 78312, 29-31 October 2002;
8. J. A. Trantham, L. F. Anderson. Development of a One-Piece Liner Hanger/Liner Top Packer/Production Packer System for Monobore Wells in Alaska's Kuparuk River Field. SPE, 78285, SPEDC, June 2002;
9. Marvin L. Harris. Innovative Through-Tubing Cement Packer Technique. SPE, 77804, October 2002;
10. P. H. Javora, S. Gosch, S. Berry, R. Pearcy. Development and Application of Insulating Packer Fluids in the Gulf of Mexico. SPE, 73 729, 20-21 February 2002;
11. Loughlin, Michael J. History of and Applications for a Coil-Tubing-Conveyed, Inflatable, Selective Injection Straddle Packer. SPE, 50655, October 1998;
12. Rune Freyer, Arve Huse. Swelling Packer for Zonal Isolation in Open Hole Screen Completions. SPE, 78312, 29-31 October 2002;
13. Loughlin, Michael J. History of and Applications for a Coil-Tubing-Conveyed, Inflatable, Selective Injection Straddle Packer. SPE, 50655, October 1998;
14.田在艺.中国石油工业的发展.石油实验地质,2001,23(1):3-7;
15.张斌,刘清友.计算机仿真技术在石油装备中的应用.天然气工业,2002,22(1):46-47;
16.江汉石油管理局采油工艺研究所.封隔器理论基础与应用.北京:石油工业出版社,1983,11:
17.于同印,曹来庆,刘华等.封隔器失效原因.封隔器理论基础与应用.油气田地面工程,2003,7,81;
18.李钦道,谢光平,张娟.初始管柱压缩量计算分析.钻采工艺,2001,24(6):48-54;
19.李钦道,谢光平,张娟.自由移动封隔器管柱变形量计算分析.钻采工艺,2002,25(1):60-64;
20.李钦道,谢光平,张娟.不能移动封隔器管柱变形受力分析.钻采工艺,2002,25(2):53-57:
21.范家齐等.非线性有限元混合法分析油井封隔器胶筒.石油学报,1991,1;
22.孙逢春,蒋轩,郑慕侨.履带车辆行驶装置橡胶力学性能试验研究.北京理工大学学报,1996,16(4):289-294:
23.邓雄,梁政.测试井封隔器胶筒径向变形探讨.西南石油学院学报,1998,20(1):61-63:
24.陈爱平.压缩式封隔器胶筒耐温耐压浅析.石油机械,1999,27(3):45-48;
25.岳澄、王燕群,邵立国等.高温封隔器胶筒与套管接触压力的实验研究.实验力学,1999,14(3):390-394;
26.徐立,吴桂忠等.有限元分析中橡胶应变能函数的若干形式.橡胶工业,1999,12:
27.王彦兴.KZ113-5-50(H)型胶筒的研制与使用.石油矿场机械,2000,29(1):12-14:
28.葛乐清.采油用封隔器密封问题的探讨.长春光学精密机械学院学报,2000,23(3):64-67;
29.王增林.膨胀式长胶简封隔器及其应用.石油钻采工艺,2000,22(4):34-36;
30.张系斌,王越之,夏宏南等.压差作用下封隔器胶筒与井壁间的剪应力分析.石油机械,2000,28(6);
31.高金榜.油井封隔器厚壁胶筒的模具结构和硫化工艺.橡胶工业,2000,47(12):730-733:
32.陈爱平,周忠亚.O形密封圈和密封圈槽的选配及应用.石油机械.2000,28(5):49-51:
33.刘天良,施纪泽.封隔器胶筒对套管接触应力模拟试验研究.石油机械,2001,29(2):10-11;
34.刘天良,施纪泽.封隔器封隔时胶皮筒接触应力的模拟试验研究.断块油气田, 2001,7(4):51-52,69;
35.耐高温高压封隔器胶筒的研制.橡胶工业,2002,49(5):317-318:
36.侯宗,毛道华,朱建民等.封隔器压缩胶筒“防突”新结构.石油机械,2002,30(9):49-50:
37.A.N.詹特.橡胶工程.如何设计橡胶配件.北京:化学工业出版社,材料科学与工程出版社,2002,11;
38.周先军,负平利,季公明.封隔器胶筒接触应力分布有限元计算.钻采工艺,2002,25(4):51-52,57;
39.季公明,周先军,贠平利.封隔器胶筒接触应力的数值模拟分析.石油矿场机械,2002,31(5):46-47;
40.王燕群,岳澄,邵立国.逆解法求封隔器胶筒与石油套管内壁挤压应力.天津大学学报,2002,35(5):634-636:
41.杨秀娟,杨恒林.液压封隔器胶筒座封过程数值分析.石油大学学报(自然科学版),2003,27(5):84-87;
42.李世民,韩进,吕西绍等.小直径封隔器胶筒的研制.橡胶工业,2003,50(6):357-359:
43.高志刚,高波,孟楠.喇嘛甸油田注入井高渗透层胶筒封堵技术研究.大庆石油地质与开发,2003,22(3):75-77;
44.刘占广.卡瓦式封隔器在井下的受力分析.石油钻采工艺,1994,16(5):53-59;
45.窦益华,胡宏涛,赖茂宏等.井下工具零件应力分析及其软件设计.石油机械,1995,23(8):4-7;
46.刘凤梧,徐秉业,高得利.封隔器对油管螺旋屈曲的影响分析.清华大学学报自然科学版,1999,39(8):104-107:
47.杨茂楠,孙景学.341—115A封隔器设计.钻采工艺.1999,22(1):38-39:
48.王岚,张立勋,陆海军等.封隔器工作状态模拟系统.应用科技,2000,27(2):12-13:
49.李钦道,谢光平,张娟.井内有流体时管柱弯曲临界力分析.钻采工艺,2001,24(4):44-46;
50.李钦道,谢光平,张娟.“虚力”产生的原因及特点分析.钻采工艺,2001,5:67-74;
51.程智远,郭群,强华.y341—115注水封隔器移动的计算和防止.199,22(2):40-42;
52.赵玉华等.Y341-114注水封隔器.石油机械,1990,3;
53.李俊明,王凤山,何光芒等.超高压压力控制及开关液压系统.石油机械,1998,26(4):5-10;
54.刘玉民,韩海生.CYY443——146导斜封隔器及管柱的研制与应用.石油机械, 1999,27(3):31-33;
55.薛新生,魏跃进,徐书军等.Fxy445-114自验封封隔器的结构及应用.钻采工艺,2000,23(4):65-67:
56.谷开昭、张富仁,古光明.Y441B型双向锚定封隔器结构分析.石油机械,1997,25(6):1-4:
57.冯耀中,向正杰,韦修海等.磁性粘弹体封隔器的开发与应用.石油机械,1997,25(3):27-29;
58.李敢,冯永泉.Y441系列双压差逐级解封封隔器.油气采收率技术,1997,4(3):72-76;
59.魏军.新型跨隔封隔器设计及应用效果分析.石油仪器,1998,12(2):26-29;
60.王学宏,单晶,杨康敏等.HNX344—114型皮碗封隔器的研究与应用.石油机械.1999,27(11):35-36;
61.邓小伟,李倩,赵奇祥等.ZYY341—114GX高压注水封隔器.石油机械.1999,27(9):35-36;
62.崔奋,李勇.Y411—115型可取式双卡瓦封隔器.石油机械.1999,27(7):21-23,54:
63.王家印,李才训,陈代文.Y341-114封隔器及组合管柱在注水井卡漏工艺中的应用.钻采工艺.1999,6(4):59-60:
64.王志清,雷雨田,刘崇利等.HNY441双向锚定封隔器.石油机械,2000,28(3):32-34;
65.杨应奎,檀朝东,颜中云.QHY341型封隔器及应用.钻采工艺.2001,24(2):46-47;
66.韩玉安、孙艳龙,姜树文等.φ88.9mm侧钻水平井套管外封隔器的研制与应用.石油机械,2000,28(9):28-30;
67.唐庆春,李志军,曹志军.Y211-76型小直径封隔器的研制与应用.石油机械,2000,28(10):37-38:
68.刘玉民,韩海生,许国林等.用于固井清水顶替作业的套管外封隔器.石油机械.2000,28(11):37-28;
69.程志强,陈雷.WJK跨隔封隔器在鄂深4井中的应用.石油钻探技术.2000.28(3),34-35:
70.曾嵘.CYY344系列高压酸化压裂封隔器.石油机械,2000,28(12):27-29:
71.程智远,强华,王庆菊.DGY241-114多功能封隔器.钻采工艺.2001,24(4):52-53:
72.自学东,耿玉乾,祁连秋.P-T封隔器在异常高压低渗透层渗漏原因初探.油气井测试.2001,10(1,2):67-68,74:
73.智勤功,谢金川,韩得民.Y445-150型防中途坐封安全处理封隔器.石油机械.2001,29(12):31-33:
74.黎文才,张胭脂,董建伟.ZYT441—114桶式卡瓦封隔器的研制.石油机械.2001,29(4):36-37;
75.董社霞,季公明,孙宝权.浅析Baker和Halliburton的双管封隔器.石油矿场机械,2001,29(1):43-46:
76.崔海霞,范春宇,丁晓芳.注水封隔器上压控制式洗井机构设计分析.石油机械.2002,30(6):19-20:
77.张顺,王玉普,林春明.DQYK344-114堵水封隔器的研制.石油钻采工艺.2002,24(2),71-73:
78.李晶等,陈德林,祝杨.GDY445型封隔器的研制与应用.石油矿场机械,2001,30(6):38-40:
79.柴国兴,李文波,王登庆.SLY341E液压封隔器的研制.石油钻采工艺.2001,23(5):79-80:
80.候宗.Y342-114封隔器的研制与应用.石油钻采工艺,2002,1;
81.孟祥鹏,任龙,朱安庆.ZJY341—114型注聚井套保封隔器.油气田地面工程.2001,20(5):71;
82.常会军,谢圣龙,李明琴.水力压缩式封隔器卡水管柱在抽油井上的应用.石油钻探技术.2002,30(5):58-59;
83.刘斌,罗懿.Y341~4/105(110)小直径堵水封隔器的研究和应用.西部探矿工程.2002,78(5):65-66:
84.石建设,顾春元,龙远强.软卡瓦注水封隔器的研制与应用.石油机械.2003,31(增),51-53;
85.崔奋,马庆贤.Y342系列封隔器的研制与应用.石油钻采工艺.2003,32(2):39-41:
86.胡风涛.Y441E型液压封隔器.石油机械,2002,30(1):12-13,24;
87.闫乐好,段长军.油田注水用封隔器密封性能的分析与研究.阀门,2002,3:22-24:
88.盖旭波,王兴伟,李占军等.G6型封隔器工作原理及应用.钻采工艺,2002,25(4):91-92:
89.马国兴,鲁青玲,李国保.QHY331型自封式封隔器的研制与应用.石油机械,2002,30(8):38-30:
90.李志升,周继斌,李际瑞等.一体两级封隔器的研究与应用.石油机械,2002,30(11):28-30:
91.陈宁.Y241-114封隔器研究与应用.钻采工艺,2003,26(1):50-51,67:
92.赵百万[译].用于大型钻井作业的膨胀式作业封隔器.石油机械.2003,31(6): 73;
93.王隆慧,刘汝福,韩进等.Y341-110QJ型封隔器的研制与应用.石油矿场机械,2003,32(1):22-24;
94.柴国兴,曹雪梅,李文波等.液压封隔器自验封技术的研究及应用.石油矿场机械.2003,32(4):42-44;
95.王峰,苟天成,张晓健等.ZY755-6型封隔器的研制与应用.石油矿场机械,2003,32(2):55-56.
96.崔奋,马庆贤.Y342系列封隔器的研制与应用.石油矿场机械,2003,32(2):39-41;
97.陈莉.可洗井自验封Y341-115型封隔器的研制与应用.石油矿场机械,2003,32(3):49-50:
98.程心平,党伟.Y422—117可取式封隔器的结构及应用.钻采工艺.1999,22(2):37-39;
99.申兴哲,孙宝泉,董社霞等.DBF-152型电潜泵封隔器的研制与应用.石油机械,2003,31(2):28-30;
100.魏瑞玲,臧洪河,陆宗林等.Y341-114型气举封隔器在文东油田的应用.石油机械,2003,31(3):40-41.
101.刘庆峰,张瑜瑾,郑永生等.BK361系列补偿式热采封隔器.石油机械,2003,31(3):36-37;
102.申兴哲,孙宝全,董社霞等.DBF—152型电潜泵封隔器的研制与应用.石油机械.2003,31(2):28-30;
103.代理震,康宜华.可钻可取式注水封隔器的研究.石油机械,2002,30(5):28-30:
104.谢忠盛.裸眼筒形封隔器在四川油气井中的应用.西部探矿工程.1999,11(5):
105.李哮南,逯国成,黄侠.水平井用液压封隔器坐封工艺技术研究,石油机械.2004,32(8):45-46;
106.刘文江,徐建春,孙爱军.热胀式封隔器用于稠油热采井.油气田地面工程.2004,23(6):60;
107.蒋友谅.非线性有限元法.北京:北京工业学院出版社,1988,6;
108.张汝清等.非线性有限元分析.重庆:重庆大学出版社,1990,1;
109.杨菊生等.有限元法程序设计.陕西:西安交通大学出版社,1990,6;
110.檀朝东,周晓东,饶鹏.一次多层压裂封隔器的研制及应用.石油钻采工艺.1999,21(4):99-106;
111.程心平[译],陈贵和[校].高效膨胀式封隔器的设计和试验.国外石油机械.1999,10(3):55-62:
112.柴国兴,辛林涛,谷开昭等.ZF皮碗封隔器及其应用.钻采工艺.1999,22(2):43-45:
113.赵佩华[译].卡麦隆公司开发出两种新式闸板封隔器.国外石油机械.1999,10(2):30;
114.饶鹏,檀朝东,李修文.QHY341型压裂封隔器的研制及应用.石油机械.2000,28(7):24-26;
115.朱宪辉,冯春健.浅海导管架平台新型封隔器的开发与应用.石油规划设计.2000,11(6):32-33;
116.王吉兴,王红梅,王方林等.新型K341型测试封隔器及改进.油气井测试.2001,10(6):66-67;
117.李人宪.有限元法基础.北京:国防工业出版社,2002,5;
118.赵煊,季公明,王进京等.新型砾石充填悬挂工具——CTXGF封隔器.石油钻采工艺.2002,24(3):77-78:
119.Ted Bclytschko 等.连续体和结构的非线性有限元.北京:清华大学出版社,2002,12;
120.西南石油学院.弹性和塑性力学中的有限单元法.四川:西南石油学院出版社,2003,5:
121.彭国伦等.Fortran95程序设计.北京:中国电力出版社,2002,9:
122.Steven Holzner 等.Visual Basic 6技术内幕.北京:机械工业出版社,1999,4;
123.邹跟宝.采油工程.北京:石油工业出版社,1998,10:
124.赵华.博士后工作总结报告.四川成都西南交通大学,1994,3;
125.易大义等.数值分析引论.浙江:浙江大学出版社,1998,9:
126.俞茂纮等.材料力学.北京:高等教育出版社,1986,5:
127.刘迎春等.传感器原理设计与应用.北京:国防科技大学出版社,1993,6:
128.湛精华,王国荣,刘清友.井下封隔器应用与研究现状.四川大学学报(工程科学版),2003,35(增刊,9月):75~78:
129.刘清友,黄云,湛精华,王海兰.井下封隔器及其各部件工作行为仿真研究.石油仪器,2005年,19(1):1~5:
130.刘清友,黄云,湛精华.井下封隔器接触有限元模型研究.钻采工艺,2005,28(2):58~60: