作业井架的力学行为分析与承载能力研究
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摘要
在油田起下油(气)井管柱的各种施工中,作业井架是主要的承力构件,井架的承载性能对井下各种施工作业产生直接影响。目前对作业井架的力学行为分析大都是在线弹性范围内进行,采用有限元方法建立结构的计算机分析模型,得到结构在给定载荷作用下的位移、应力等参数,而对结构在弹塑性、塑性阶段的研究很少。作业井架在使用过程中,有时会出现短期超载现象,而且大多数井架已服役多年,结构自身存在着各种损伤缺陷,使得在用井架与理想状态下的井架在力学特性和承载能力上产生了差异。
本文应用双重非线性有限元方法研究井架结构的力学行为。结构分析采用ANSYS软件,建立作业井架的有限元分析模型。通过考虑结构几何非线性来研究结构的大初曲率、大变形对结构力学性能的影响;通过考虑材料非线性来研究结构在弹塑性阶段的力学性能。对线性、非线性两种分析方法所得的结果进行了对比分析。结果表明,在小荷载、小变形情况下,按线弹性理论对井架结构进行分析是可行的。
绷绳作为作业井架的特殊支承构件,其工作特性对作业井架的力学行为有较大影响。本文对井架绷绳的非线性效应进行了等效处理。在计算中采用等效弹性模量代替钢丝绳的有效弹性模量,来研究井架绷绳在载荷作用下由垂度变化所引起的非线性效应,分析了井架绷绳的非线性效应对结构受力变形产生的影响。结果表明,井架绷绳的非线性效应主要对结构的刚度产生影响。
本文研究了井架结构的极限承载力问题。对井架的失稳形式进行分析,确定井架结构的失稳形式属于极值点失稳,并通过双重非线性稳定性分析计算井架结构的极限承载力。对井架的整体初弯曲缺陷,采用与结构失稳时屈曲一致的初始缺陷波形进行模拟,对具有不同程度初始弯曲的井架进行了承载能力研究,得出了井架整体初弯曲程度与结构极限承载力之间的变化关系。
In oilfield, downhole derricks are the main part that bears the loads in the downhole operation hoist system. Load capacity of the downhole derricks directly affects the downhole operation work At present, most mechanical behavior analysis for derricks are in the domain of elasticity, using finite element method to establish the computer analysis model, by analyzing get the stress, displacements and other mechanical parameters. The studies for derricks in the domain of plasticity are very few. The downhole derricks sometimes are over loading and most derricks are already worked for many years. They inevitably have varieties of damages and distortions, which made the derricks in-use have different mechanical characteristics as contrasted with their ideal status.
This thesis presents a method of double nonlinear analysis to study the mechanical behavior of derricks steel structures. Large analytical software ANSYS was used. The large deformation of structures is considered by geometric nonlinearities analysis. The mechanical characteristics of derricks in the domain of plasticity are considered by material nonlinerities analysis. Contrasted with the results that come from linearity and nonlinearity analysis, it is concluded that to analyze derricks steel structures is feasible with linearity theory in the condition of light load and small deformation.
Derrick guy wire as the special supporting member of downhole derricks, its performance has much impact on the mechanical behavior of derricks. Its nonlinear effect has been dealt with equivalently in this thesis. The equivalent elastic module has been used instead of derrick guy wire's effective elastic module in the study of the nonlinear behavior that caused by derrick guy wire. The effect of derrick guy wires nonlinear behavior to structure's deformation has been analyzed. According to the analysis, the nonlinear effects are mainly on the stiffness of downhole derricks steel structure.
The ultimate load of the structure has been studied in this thesis and arrived by using nonlinear buckling analysis, which technique employs a nonlinear static analysis with gradually increasing loads to seek the load level at which the structure becomes unstable. The author presented a simulating method for bending deformation of derricks by using the mode, which is consistent with the buckling mode of derricks. The relation between the bending degrees and structural ultimate load capacity has been researched by using the simulation method.
本文应用双重非线性有限元方法研究井架结构的力学行为。结构分析采用ANSYS软件,建立作业井架的有限元分析模型。通过考虑结构几何非线性来研究结构的大初曲率、大变形对结构力学性能的影响;通过考虑材料非线性来研究结构在弹塑性阶段的力学性能。对线性、非线性两种分析方法所得的结果进行了对比分析。结果表明,在小荷载、小变形情况下,按线弹性理论对井架结构进行分析是可行的。
绷绳作为作业井架的特殊支承构件,其工作特性对作业井架的力学行为有较大影响。本文对井架绷绳的非线性效应进行了等效处理。在计算中采用等效弹性模量代替钢丝绳的有效弹性模量,来研究井架绷绳在载荷作用下由垂度变化所引起的非线性效应,分析了井架绷绳的非线性效应对结构受力变形产生的影响。结果表明,井架绷绳的非线性效应主要对结构的刚度产生影响。
本文研究了井架结构的极限承载力问题。对井架的失稳形式进行分析,确定井架结构的失稳形式属于极值点失稳,并通过双重非线性稳定性分析计算井架结构的极限承载力。对井架的整体初弯曲缺陷,采用与结构失稳时屈曲一致的初始缺陷波形进行模拟,对具有不同程度初始弯曲的井架进行了承载能力研究,得出了井架整体初弯曲程度与结构极限承载力之间的变化关系。
In oilfield, downhole derricks are the main part that bears the loads in the downhole operation hoist system. Load capacity of the downhole derricks directly affects the downhole operation work At present, most mechanical behavior analysis for derricks are in the domain of elasticity, using finite element method to establish the computer analysis model, by analyzing get the stress, displacements and other mechanical parameters. The studies for derricks in the domain of plasticity are very few. The downhole derricks sometimes are over loading and most derricks are already worked for many years. They inevitably have varieties of damages and distortions, which made the derricks in-use have different mechanical characteristics as contrasted with their ideal status.
This thesis presents a method of double nonlinear analysis to study the mechanical behavior of derricks steel structures. Large analytical software ANSYS was used. The large deformation of structures is considered by geometric nonlinearities analysis. The mechanical characteristics of derricks in the domain of plasticity are considered by material nonlinerities analysis. Contrasted with the results that come from linearity and nonlinearity analysis, it is concluded that to analyze derricks steel structures is feasible with linearity theory in the condition of light load and small deformation.
Derrick guy wire as the special supporting member of downhole derricks, its performance has much impact on the mechanical behavior of derricks. Its nonlinear effect has been dealt with equivalently in this thesis. The equivalent elastic module has been used instead of derrick guy wire's effective elastic module in the study of the nonlinear behavior that caused by derrick guy wire. The effect of derrick guy wires nonlinear behavior to structure's deformation has been analyzed. According to the analysis, the nonlinear effects are mainly on the stiffness of downhole derricks steel structure.
The ultimate load of the structure has been studied in this thesis and arrived by using nonlinear buckling analysis, which technique employs a nonlinear static analysis with gradually increasing loads to seek the load level at which the structure becomes unstable. The author presented a simulating method for bending deformation of derricks by using the mode, which is consistent with the buckling mode of derricks. The relation between the bending degrees and structural ultimate load capacity has been researched by using the simulation method.
引文
[1].I-DEAS有限元分析入门指南.北理工车辆与交通工程学院计算机应用与仿真中心,2001
[2].雷晓燕.有限元法.第一版.北京:中国铁道出版社,2000.1~3
[3].龚尧南,王寿梅.结构分析中的非线性有限元素法.第一版.北京:北京航空航天出版社,1986
[4].邓东.井下作业提升系统受力分析与安全评定.硕士学位论文.大庆:大庆石油学院,2002
[5].朱慈勉,汪榴,江利仁.计算结构力学.第一版.上海:上海科学技术出版社,1991
[6].曲守平,赵登峰,单东升.40t修井机井架强度的有限元分析.长春大学学报,2000,10(6):1~4
[7].高学仕,齐明侠,郑满圈,等.修井机井架的静强度与疲劳分析.石油矿场机械,2001,30(4):9~11
[8].张见明.修井机井架的应力分析及结构改进.石油矿场机械,1998,27(2):17~21
[9].綦耀光,贾玉武.自携式作业井架的有限元分析.石油矿场机械,1998,27(4):17~20
[10].周国强,常玉连.井架的纵向及扭转自由振动.石油矿场机械,1983,12(6):26~29
[11].郑伯芳,陈立民,韩秀清,等.Ⅱ型井架前大腿的稳定性分析.石油矿场机械,1985,14(5):36~41
[12].杨敬源,韩国有,邹龙庆.中型钻机前开回井架外形结构分析.石油机械,1994,22(3):1~6
[13].张爱林,田汝珉.考虑初始缺陷的服役井架承载力分析.石油矿场机械,1994,23(6):9~12
[14].刘金梅.在用石油井架结构分析、测试及评定理论.硕士学位论文.大庆:大庆石油学院,2001
[15].蒋友谅,赵学仁.计算结构力学.第一版.北京:北京理工大学出版社,1988,63~64
[16]. ANSYS. Inc, ANSYS Elements Reference [N]. Eleventh Edition, SAS, IP Inc, 2001
[17].宋天霞.非线性结构有限元计算.第一版.武汉:华中理工大学出版社,1996
[18].方兴.大跨度斜拉桥非线性及整体稳定性研究.硕士学位论文.北京:北京工业大学,2003
[19].向天宇,赵人达,刘海波.将弧长法应用于结构的几何非线性有限元分析.四川建筑科学研究,2003,29(2):6~7
[20]. Lam W F, Morley C T. Arc-length method for passing limit points in structural calculation, Journal of structural Engineering, 1994,118(1):169-185
[21].罗永峰,滕锦光,沈祖炎.确定结构分支点及跟踪平衡路径的改进弧长法.同济大学学报,1997,25(5):502~507
[22].罗永峰,JG Teng,沈永兴,等.结构非线性分析中求解预定荷载水平的改进弧长法.计算力学学报,1997,14(4):462~466
[23]. M.A.CRISFIELD. An arc-length method including line searches and accelerations, International journal for numerical methods in engineering, 1983, 19:1269-1289
[24]. M.A.CRISFIELD. A fast incremental/iterative solution procedure that handles "snap-through". Computers & structures, 1980, 13:55-62
[25]. Carpera E. A study on arc-length-type methods and their operation failures illustrated by a simple model. Computers & structures, 1994,50(2):217-229
[26]. Choong K K, Hangai Y. Review on methods of bifurcation analysis for geometrically nonlinear structures. Bulletin of the International Association for Shell and Spatial Structures, 1993,34(2):133-149
[27].崔世杰,张清杰.应用塑性力学.第一版.河南科技技术出版社,1992
[28].程进,江见鲸,肖汝诚,等.改进的UL列式法及在几何非线性分析中的应用.力学与实践,2003,(25)2:33~35
[29]. E. Providas, M.A. Kattis. A simple finite element model for the geometrically nonlinear analysis of thin
shells. Computational Mechanics, 1999,24:127-137
[30]. Narayanan G, Krishnamoorthy CS. An investigation of geometric nonlinear formulations for 3D beam elements, Int J Non-linear Mechanics, 1990,25(6):634-662
[31].陈骥.钢结构稳定理论与设计.第一版.北京:科学出版社,2001
[32].陈铁去,沈惠中.结构的屈曲.第一版.上海:上海科学技术文献出版社,1993
[33].任伟新,曾庆元.钢压杆稳定极限承载力分析.第一版.北京:中国铁道出版社,1994
[34]. Zhao Changjun, Wang Fengjun, Chen Qing, Xu Xing. Stability analysis of long span concrete filled steel arch bridges [J[. Highway, 2001,(2): 15-17
[35]. J.N. Flavin, S. Rionero. Nonlinear stability for a thermofluid in a vertical porous slab. Continuum Mech. Thermodyn. 1999,11:173-179
[36]. J. Betten, c. H. Shin. Elastic-plastic buckling analysis of rectangular plates subjected to biaxial loads. Forschung in Ingenieurwesen, 2000,65:273-278
[37].常玉连,刘玉泉.钻井井架、底座的设计计算.第一版.北京:石油工业出版社,1994
[38].华孝良,徐光辉.桥梁结构非线性分析.第一版.北京:人民交通出版社,1997
[39].胡松,何艳丽,王肇民.大挠度索结构的非线性有限元分析.工程力学,2000,17(2):36~43
[40].李国平.斜拉索非线性分析的状态修正法.同济大学学报,2000,28(1):1~4
[41].郝超,裴岷山,强士中.大跨度斜拉桥拉索无应力长度的计算方法比较.重庆交通学院学报,2001,20(3):1~3
[42].中华人民共和国行业标准,公路斜拉桥设计规范(试行).人民交通出版社,1997
[43].陈惠发.钢框架稳定设计 周绥平.第一版.上海:世界图书出版公司,1999.161~225
[44].程进,江见鲸,肖汝诚,等.大跨度拱桥极限承载力的参数研究.中国公路学报,2003,16(2):45~47
[45].程进,江见鲸,肖汝诚,等.大跨度拱桥结构极限承载力分析.工程力学,2003,20(2):7~10
[46].程进,江见鲸,肖汝诚,等.拱桥结构极限承载力的研究现状与发展.公路交通科技,2002,(4):57~59
[47].袁英战,王元清,周国强.采油井架钢结构非线性力学行为分析.工程力学,2000,17(6):104~109
[48].程进,肖汝诚,项海帆.超大跨径缆索承重桥梁极限承载力分析的现状与展望.中国公路学报,1999,12(4):59~63
[49].潘家英,张国政,程庆国.大跨度桥梁极限承载力的几何与材料非线性耦合分析.土木工程学报,2000,(33),1:5~9
[50].舒兴平,沈蒲生,尚守平.钢框架结构二阶弹塑性稳定极限承载力试验研究.钢结构,1999,14(4):19~22
[51].于长武.石油钻井井架缺陷分析.硕士学位论文.大庆:大庆石油学院,1997,6 杨敏嘉,彭高华,周国强.初始缺陷对井架总体稳定的影响.石油矿场机械,1986,15(1):15~19
[2].雷晓燕.有限元法.第一版.北京:中国铁道出版社,2000.1~3
[3].龚尧南,王寿梅.结构分析中的非线性有限元素法.第一版.北京:北京航空航天出版社,1986
[4].邓东.井下作业提升系统受力分析与安全评定.硕士学位论文.大庆:大庆石油学院,2002
[5].朱慈勉,汪榴,江利仁.计算结构力学.第一版.上海:上海科学技术出版社,1991
[6].曲守平,赵登峰,单东升.40t修井机井架强度的有限元分析.长春大学学报,2000,10(6):1~4
[7].高学仕,齐明侠,郑满圈,等.修井机井架的静强度与疲劳分析.石油矿场机械,2001,30(4):9~11
[8].张见明.修井机井架的应力分析及结构改进.石油矿场机械,1998,27(2):17~21
[9].綦耀光,贾玉武.自携式作业井架的有限元分析.石油矿场机械,1998,27(4):17~20
[10].周国强,常玉连.井架的纵向及扭转自由振动.石油矿场机械,1983,12(6):26~29
[11].郑伯芳,陈立民,韩秀清,等.Ⅱ型井架前大腿的稳定性分析.石油矿场机械,1985,14(5):36~41
[12].杨敬源,韩国有,邹龙庆.中型钻机前开回井架外形结构分析.石油机械,1994,22(3):1~6
[13].张爱林,田汝珉.考虑初始缺陷的服役井架承载力分析.石油矿场机械,1994,23(6):9~12
[14].刘金梅.在用石油井架结构分析、测试及评定理论.硕士学位论文.大庆:大庆石油学院,2001
[15].蒋友谅,赵学仁.计算结构力学.第一版.北京:北京理工大学出版社,1988,63~64
[16]. ANSYS. Inc, ANSYS Elements Reference [N]. Eleventh Edition, SAS, IP Inc, 2001
[17].宋天霞.非线性结构有限元计算.第一版.武汉:华中理工大学出版社,1996
[18].方兴.大跨度斜拉桥非线性及整体稳定性研究.硕士学位论文.北京:北京工业大学,2003
[19].向天宇,赵人达,刘海波.将弧长法应用于结构的几何非线性有限元分析.四川建筑科学研究,2003,29(2):6~7
[20]. Lam W F, Morley C T. Arc-length method for passing limit points in structural calculation, Journal of structural Engineering, 1994,118(1):169-185
[21].罗永峰,滕锦光,沈祖炎.确定结构分支点及跟踪平衡路径的改进弧长法.同济大学学报,1997,25(5):502~507
[22].罗永峰,JG Teng,沈永兴,等.结构非线性分析中求解预定荷载水平的改进弧长法.计算力学学报,1997,14(4):462~466
[23]. M.A.CRISFIELD. An arc-length method including line searches and accelerations, International journal for numerical methods in engineering, 1983, 19:1269-1289
[24]. M.A.CRISFIELD. A fast incremental/iterative solution procedure that handles "snap-through". Computers & structures, 1980, 13:55-62
[25]. Carpera E. A study on arc-length-type methods and their operation failures illustrated by a simple model. Computers & structures, 1994,50(2):217-229
[26]. Choong K K, Hangai Y. Review on methods of bifurcation analysis for geometrically nonlinear structures. Bulletin of the International Association for Shell and Spatial Structures, 1993,34(2):133-149
[27].崔世杰,张清杰.应用塑性力学.第一版.河南科技技术出版社,1992
[28].程进,江见鲸,肖汝诚,等.改进的UL列式法及在几何非线性分析中的应用.力学与实践,2003,(25)2:33~35
[29]. E. Providas, M.A. Kattis. A simple finite element model for the geometrically nonlinear analysis of thin
shells. Computational Mechanics, 1999,24:127-137
[30]. Narayanan G, Krishnamoorthy CS. An investigation of geometric nonlinear formulations for 3D beam elements, Int J Non-linear Mechanics, 1990,25(6):634-662
[31].陈骥.钢结构稳定理论与设计.第一版.北京:科学出版社,2001
[32].陈铁去,沈惠中.结构的屈曲.第一版.上海:上海科学技术文献出版社,1993
[33].任伟新,曾庆元.钢压杆稳定极限承载力分析.第一版.北京:中国铁道出版社,1994
[34]. Zhao Changjun, Wang Fengjun, Chen Qing, Xu Xing. Stability analysis of long span concrete filled steel arch bridges [J[. Highway, 2001,(2): 15-17
[35]. J.N. Flavin, S. Rionero. Nonlinear stability for a thermofluid in a vertical porous slab. Continuum Mech. Thermodyn. 1999,11:173-179
[36]. J. Betten, c. H. Shin. Elastic-plastic buckling analysis of rectangular plates subjected to biaxial loads. Forschung in Ingenieurwesen, 2000,65:273-278
[37].常玉连,刘玉泉.钻井井架、底座的设计计算.第一版.北京:石油工业出版社,1994
[38].华孝良,徐光辉.桥梁结构非线性分析.第一版.北京:人民交通出版社,1997
[39].胡松,何艳丽,王肇民.大挠度索结构的非线性有限元分析.工程力学,2000,17(2):36~43
[40].李国平.斜拉索非线性分析的状态修正法.同济大学学报,2000,28(1):1~4
[41].郝超,裴岷山,强士中.大跨度斜拉桥拉索无应力长度的计算方法比较.重庆交通学院学报,2001,20(3):1~3
[42].中华人民共和国行业标准,公路斜拉桥设计规范(试行).人民交通出版社,1997
[43].陈惠发.钢框架稳定设计 周绥平.第一版.上海:世界图书出版公司,1999.161~225
[44].程进,江见鲸,肖汝诚,等.大跨度拱桥极限承载力的参数研究.中国公路学报,2003,16(2):45~47
[45].程进,江见鲸,肖汝诚,等.大跨度拱桥结构极限承载力分析.工程力学,2003,20(2):7~10
[46].程进,江见鲸,肖汝诚,等.拱桥结构极限承载力的研究现状与发展.公路交通科技,2002,(4):57~59
[47].袁英战,王元清,周国强.采油井架钢结构非线性力学行为分析.工程力学,2000,17(6):104~109
[48].程进,肖汝诚,项海帆.超大跨径缆索承重桥梁极限承载力分析的现状与展望.中国公路学报,1999,12(4):59~63
[49].潘家英,张国政,程庆国.大跨度桥梁极限承载力的几何与材料非线性耦合分析.土木工程学报,2000,(33),1:5~9
[50].舒兴平,沈蒲生,尚守平.钢框架结构二阶弹塑性稳定极限承载力试验研究.钢结构,1999,14(4):19~22
[51].于长武.石油钻井井架缺陷分析.硕士学位论文.大庆:大庆石油学院,1997,6 杨敏嘉,彭高华,周国强.初始缺陷对井架总体稳定的影响.石油矿场机械,1986,15(1):15~19