地下管线非开挖施工中导向钻杆应力分析
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摘要
本文简单介绍了地下管线非开挖施工技术的概念,评述了钻杆力学的研究现状以及发展趋势。由于导向钻杆是导向钻进施工中受力最复杂和工况最恶劣的构件,因此,选取导向钻杆作为研究对象,对其各种应力状态进行分析。
基于有关力学理论,论述了钻杆各种应力分析的基本方法。利用ANSYS有限元分析软件对钻杆整体应力和一般截面的应力进行分析,找到了最大米赛斯应力的分布位置,得出了钻杆曲率半径对最大应力的影响规律和扭矩对钻杆应力的影响以及一般截面上应力的分布规律。
此外,钻杆接头是导向钻进施工中最容易受破坏且应力集中的部位,因此,利用ANSYS软件对不同钻杆接头外径情况下的应力和变形进行计算分析,并对其进行结构屈曲分析。得出了钻杆接头外径对钻杆中等效弯曲应力和竖向变形以及钻杆临界屈曲荷载的影响规律,以便在实际工程中为合理选取钻杆接头提供借鉴。
In this paper, the concept of trenchless construction technology of underground pipelines is introduced, and the current research situation and developing trend about drilling rod mechanics are reviewed. As the guide drill rod is subjected to the most complicated stress and the harshest working condition among all components in drill system, it is taken as the research object to analyze its stress status.
Based on the relative mechanics theories, the basic methods to analyze the various stress in dill rod are elaborated. The overall stress and general section stress of the drill rod are analyzed by using the ANSYS finite element method analysis software. The position of the most Mises stress distribution is found, and the influences of drill rod curvature radius on maximum stress, and those of torque on drill rod stress are obtained. Besides, the stress distribution regulations in general section is obtained.
In addition, the rod joint is the most susceptible to damage and stress concentration during the oriented drilling construction, so the stress and deformation analysis on drill rod with different rod joint diameters and the structural buckling analysis are performed by using ANSYS software. The influence of rod joint diameter on equivalent bending stress and vertical deformation, and critical buckling load are obtained. The relative research results can provide the reference for selecting drill rod joint in engineering.
基于有关力学理论,论述了钻杆各种应力分析的基本方法。利用ANSYS有限元分析软件对钻杆整体应力和一般截面的应力进行分析,找到了最大米赛斯应力的分布位置,得出了钻杆曲率半径对最大应力的影响规律和扭矩对钻杆应力的影响以及一般截面上应力的分布规律。
此外,钻杆接头是导向钻进施工中最容易受破坏且应力集中的部位,因此,利用ANSYS软件对不同钻杆接头外径情况下的应力和变形进行计算分析,并对其进行结构屈曲分析。得出了钻杆接头外径对钻杆中等效弯曲应力和竖向变形以及钻杆临界屈曲荷载的影响规律,以便在实际工程中为合理选取钻杆接头提供借鉴。
In this paper, the concept of trenchless construction technology of underground pipelines is introduced, and the current research situation and developing trend about drilling rod mechanics are reviewed. As the guide drill rod is subjected to the most complicated stress and the harshest working condition among all components in drill system, it is taken as the research object to analyze its stress status.
Based on the relative mechanics theories, the basic methods to analyze the various stress in dill rod are elaborated. The overall stress and general section stress of the drill rod are analyzed by using the ANSYS finite element method analysis software. The position of the most Mises stress distribution is found, and the influences of drill rod curvature radius on maximum stress, and those of torque on drill rod stress are obtained. Besides, the stress distribution regulations in general section is obtained.
In addition, the rod joint is the most susceptible to damage and stress concentration during the oriented drilling construction, so the stress and deformation analysis on drill rod with different rod joint diameters and the structural buckling analysis are performed by using ANSYS software. The influence of rod joint diameter on equivalent bending stress and vertical deformation, and critical buckling load are obtained. The relative research results can provide the reference for selecting drill rod joint in engineering.
引文
[1]王元峰,黎来福,张虹野.浅议非开挖技术[J].山西建筑,2007,33(34):142—143;
[2]颜纯文.非开挖地下管线施工技术及其应用[J].北京,地震出版社,1999,第一版;
[3]黄永康,刘东亮.非开挖地下管线施工新技术综述[J].建筑机械,2002,11(2):12—13;
[4]李小杰,孙友宏,刘迎娟.浅析非开挖地下管线施工技术[J].非开挖技术,2005,22(2):18-22;
[5]颜纯文,蒋国盛,叶建良.非开挖铺设地下管线工程技术[M].上海:科学技术出版社2005:3-10,89-122.
[6]车延岗.导向钻进非开挖技术简介[J].市政技术,2002,4(4):41—46;
[7]王鹏,王洪玲.导向钻进非开挖铺管技术[J].探矿工程,1996,6(2):32—34;
[8]JOHANCSIK C A. Torque and drag in directional wells prediction and measurement[C]. IADC/SPE 11-380.
[9]HOHS. An improved modeling program for computing the torque and drag in directional and deep wells[C].SPE.
[10]李子丰,刘希圣.水平井钻柱稳态拉力-扭矩模型及其应用[J].石油钻探技术,1993,20(4):1-6.
[11]李子丰,李敬媛,孔凡军.钻柱拉力·扭矩模型述评[J].石油机械,1993,21(8):43-46.
[12]LUBINSKIA. A study of the buckling of rotary drilling strings [J]. API,1950,178-214.
[13]狄勤丰,王文昌,胡以宝等.钻柱动力学研究及应用进展[J].天然气工业,2006,26(4):57-59.
[14]胡以宝,狄勤丰,邹海洋等.钻柱动力学研究及监控技术新发展[J].石油钻探技术,2006,34(6):7-10.
[15]祝效华,童华,刘清友.钻柱动力学研究回顾及新思路的提出[J].海洋石油,2007,27(1):84-87.
[16]章扬烈.柱运动学与动力学[M].北京:石油工业出版社,2001.
[17]王珍应,徐铭陶.钻柱纵向受迫振动的广义传递矩阵法[J].石油学报,1990,11(3):107-114.
[18]刘清友,马德坤,钟青.钻柱扭转振动模型的建立及求解[J].石油学报,2000,21(2):78-82.
[19]李子丰.油气井管杆柱力学[M].北京:石油工业出版社,1996.
[20]李子丰,李敬媛,于成金.钻柱耦合振动[J].石油钻探技术,1992,20(2):16-17,57.
[21]马新.水平定向钻杆力学效应模拟仿真研究[D].吉林:吉林大学,2006.18—23;
[22]WALK.ERBH, FREDMANM B Three-dimensicnal force and deflection analysis of a variable cross cection drill string[J].Jounal of Pressure Vessel Technology,1977, (5): 367-372;
[23]HOH S Prediction of drilling trajectory in directional well via a new rode-bit in teration model[C], SPE 16658;
[24]马誉洲,韩志勇.轴向力及重力作用下钻杆最大弯曲应力计算.石油大学学报(自然科学版),2001年第25卷第2期:
[25]曹道鑫.煤矿安全钻机钻杆理论计算探讨.矿山机械,1997年第六期;
[26]PASLAYPR, CERNOCKYEP.Bending strees maganification in constant curvature doglegs with impact on dril string and casing[J].SPE 22547,1991;
[27]赵国珍,龚伟安.钻井力学基础[M].北京:石油工业出版社.1988.
[28]艾池,王黎明.钻柱在扭转、纵向振动下的疲劳寿命估算[J].大庆石油学院学报.2006,,3(4):9-11
[29]张学鸿,孙超.侧钻井钻柱的纵向振动与疲劳强度预测[J].大庆石油学院学报.1998,22(3):52-54.
[30]刘清友,马德坤等.钻柱纵向振动模型的建立及求解方法[J].西南石油学院学报.1998,20(4):20-209.
[31]李子丰,张永贵等.钻柱纵向和扭转振动分析[J].工程力学.2004,21(6):203-209.
[32]胡以宝,狄勤等.斜直井中转速对钻柱动力学特性的影响[J].工程力学,2010,27(5):184-189.
[33]曾攀.有限元分析及应用[M].北京:清华大学出版社,2004;
[34]段进,倪栋,王国业ANSYS 10.0结构分析从入门到精通[M].北京:兵器工业出版社,2006;
[35]董国权.有限元基础及ANSYS应用.机械工业出版社,2004.6;
[36]孙训方,方孝淑,关来秦.材料力学[M].第四版.北京:高等教育出版社,2002;
[37]林元华,施太和.复杂地层钻杆的钻柱设计及使用技术研究[J].天然气工业,2002;
[38]帅健,吕英民,蔡强康.石油学报,第16卷第1期;
[39]夸克工作室.有限元分析基础篇ANSYS与Methematic清华大学出版社,2002.6;
[40高德利.钻头与地层相互作用研究[D].北京:石油大学,1990;
[41]周体秋,张建龙.利用计算机进行钻杆接头内螺纹设计,钻采工艺,1998,Vo1.21,No.2,79—80;
[42]林元华,施太和,赵鹏,韩建增,林腾蛟.复杂地层钻具接头力学性能模拟及应用[J].钢铁,2005,8(2):43
[43]朱炳坤.水平状态下钻柱的屈曲分析,钻采工艺,2008,31(12):91—93
[44]刘峰,王鑫伟,甘立飞.基于有限元分析的直井中钻柱螺旋屈曲临界载荷定义[J].工程力学,2007,24(1):173—177,192:;
[45]Day JB.New makeup method for API connections.SPE Drilling Eng.1990,5(3):233-238;
[46]高德全.在机械工程中的有限元法分析.机械工业出版社,1995;
[47]简晓刚,郑午,刘宝仁.非开挖钻机接头的仿真设计[J].钻掘工程,2001,1(3):33—35;
[48]Crandall MG,RabinowitzPH.Bifurcations from simple eigenvalues Functions Analysis and Its Applications.1997;
[49]ANSYS机械工程应用.模态分析理论与实例,第三版.中国机械出版社,2001年;
[50]陈智.旋挖钻机机锁式钻杆的有限元分析.沈阳理工大学,硕士学位论文,2011年3月;
[2]颜纯文.非开挖地下管线施工技术及其应用[J].北京,地震出版社,1999,第一版;
[3]黄永康,刘东亮.非开挖地下管线施工新技术综述[J].建筑机械,2002,11(2):12—13;
[4]李小杰,孙友宏,刘迎娟.浅析非开挖地下管线施工技术[J].非开挖技术,2005,22(2):18-22;
[5]颜纯文,蒋国盛,叶建良.非开挖铺设地下管线工程技术[M].上海:科学技术出版社2005:3-10,89-122.
[6]车延岗.导向钻进非开挖技术简介[J].市政技术,2002,4(4):41—46;
[7]王鹏,王洪玲.导向钻进非开挖铺管技术[J].探矿工程,1996,6(2):32—34;
[8]JOHANCSIK C A. Torque and drag in directional wells prediction and measurement[C]. IADC/SPE 11-380.
[9]HOHS. An improved modeling program for computing the torque and drag in directional and deep wells[C].SPE.
[10]李子丰,刘希圣.水平井钻柱稳态拉力-扭矩模型及其应用[J].石油钻探技术,1993,20(4):1-6.
[11]李子丰,李敬媛,孔凡军.钻柱拉力·扭矩模型述评[J].石油机械,1993,21(8):43-46.
[12]LUBINSKIA. A study of the buckling of rotary drilling strings [J]. API,1950,178-214.
[13]狄勤丰,王文昌,胡以宝等.钻柱动力学研究及应用进展[J].天然气工业,2006,26(4):57-59.
[14]胡以宝,狄勤丰,邹海洋等.钻柱动力学研究及监控技术新发展[J].石油钻探技术,2006,34(6):7-10.
[15]祝效华,童华,刘清友.钻柱动力学研究回顾及新思路的提出[J].海洋石油,2007,27(1):84-87.
[16]章扬烈.柱运动学与动力学[M].北京:石油工业出版社,2001.
[17]王珍应,徐铭陶.钻柱纵向受迫振动的广义传递矩阵法[J].石油学报,1990,11(3):107-114.
[18]刘清友,马德坤,钟青.钻柱扭转振动模型的建立及求解[J].石油学报,2000,21(2):78-82.
[19]李子丰.油气井管杆柱力学[M].北京:石油工业出版社,1996.
[20]李子丰,李敬媛,于成金.钻柱耦合振动[J].石油钻探技术,1992,20(2):16-17,57.
[21]马新.水平定向钻杆力学效应模拟仿真研究[D].吉林:吉林大学,2006.18—23;
[22]WALK.ERBH, FREDMANM B Three-dimensicnal force and deflection analysis of a variable cross cection drill string[J].Jounal of Pressure Vessel Technology,1977, (5): 367-372;
[23]HOH S Prediction of drilling trajectory in directional well via a new rode-bit in teration model[C], SPE 16658;
[24]马誉洲,韩志勇.轴向力及重力作用下钻杆最大弯曲应力计算.石油大学学报(自然科学版),2001年第25卷第2期:
[25]曹道鑫.煤矿安全钻机钻杆理论计算探讨.矿山机械,1997年第六期;
[26]PASLAYPR, CERNOCKYEP.Bending strees maganification in constant curvature doglegs with impact on dril string and casing[J].SPE 22547,1991;
[27]赵国珍,龚伟安.钻井力学基础[M].北京:石油工业出版社.1988.
[28]艾池,王黎明.钻柱在扭转、纵向振动下的疲劳寿命估算[J].大庆石油学院学报.2006,,3(4):9-11
[29]张学鸿,孙超.侧钻井钻柱的纵向振动与疲劳强度预测[J].大庆石油学院学报.1998,22(3):52-54.
[30]刘清友,马德坤等.钻柱纵向振动模型的建立及求解方法[J].西南石油学院学报.1998,20(4):20-209.
[31]李子丰,张永贵等.钻柱纵向和扭转振动分析[J].工程力学.2004,21(6):203-209.
[32]胡以宝,狄勤等.斜直井中转速对钻柱动力学特性的影响[J].工程力学,2010,27(5):184-189.
[33]曾攀.有限元分析及应用[M].北京:清华大学出版社,2004;
[34]段进,倪栋,王国业ANSYS 10.0结构分析从入门到精通[M].北京:兵器工业出版社,2006;
[35]董国权.有限元基础及ANSYS应用.机械工业出版社,2004.6;
[36]孙训方,方孝淑,关来秦.材料力学[M].第四版.北京:高等教育出版社,2002;
[37]林元华,施太和.复杂地层钻杆的钻柱设计及使用技术研究[J].天然气工业,2002;
[38]帅健,吕英民,蔡强康.石油学报,第16卷第1期;
[39]夸克工作室.有限元分析基础篇ANSYS与Methematic清华大学出版社,2002.6;
[40高德利.钻头与地层相互作用研究[D].北京:石油大学,1990;
[41]周体秋,张建龙.利用计算机进行钻杆接头内螺纹设计,钻采工艺,1998,Vo1.21,No.2,79—80;
[42]林元华,施太和,赵鹏,韩建增,林腾蛟.复杂地层钻具接头力学性能模拟及应用[J].钢铁,2005,8(2):43
[43]朱炳坤.水平状态下钻柱的屈曲分析,钻采工艺,2008,31(12):91—93
[44]刘峰,王鑫伟,甘立飞.基于有限元分析的直井中钻柱螺旋屈曲临界载荷定义[J].工程力学,2007,24(1):173—177,192:;
[45]Day JB.New makeup method for API connections.SPE Drilling Eng.1990,5(3):233-238;
[46]高德全.在机械工程中的有限元法分析.机械工业出版社,1995;
[47]简晓刚,郑午,刘宝仁.非开挖钻机接头的仿真设计[J].钻掘工程,2001,1(3):33—35;
[48]Crandall MG,RabinowitzPH.Bifurcations from simple eigenvalues Functions Analysis and Its Applications.1997;
[49]ANSYS机械工程应用.模态分析理论与实例,第三版.中国机械出版社,2001年;
[50]陈智.旋挖钻机机锁式钻杆的有限元分析.沈阳理工大学,硕士学位论文,2011年3月;