On the failure configuration of suspended tubular strings when helical buckling just occurs
When the sinusoidal buckling of suspended tubular strings is transforming to helical buckling, the deformation changes drastically, which makes the tubular strings extremely unstable. The quantitative description of this buckling configuration in previous theoretical studies is not precise enough. I...
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sg-ntu-dr.10356-1514132021-06-23T12:14:11Z On the failure configuration of suspended tubular strings when helical buckling just occurs Zhang, Qiang Jiang, Bao Xiao, Zhongmin Cui, Wei Liu, Jubao School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Suspended Tubular Strings Helical Buckling When the sinusoidal buckling of suspended tubular strings is transforming to helical buckling, the deformation changes drastically, which makes the tubular strings extremely unstable. The quantitative description of this buckling configuration in previous theoretical studies is not precise enough. In our current study, dynamic relaxation method is applied to carry out numerical simulation of buckling transition of suspended tubular strings. To obtain stable buckling configurations, larger Rayleigh damping is used to attenuate the dynamic effect. With the increase of axial compression load, the lateral buckling of the suspended strings suddenly becomes spiral shape with two contact points. As the string length increases, the position of the lower contact point remains almost at the same position. While the upper contact point gradually moves upward, and the helix angle between the two points increases and gradually tends to be constant. The maximum contact force is located at the lower contact point, the maximum shear force is located at the bottom of the strings, and the dimensionless distance between the location of the maximum bending moment and the well bottom is about 1.0. These loads, including the maximum contact force, maximum shear force and maximum bending moment, gradually decrease with the increasing string length and tend to be constant. The dimensionless critical load is reduced from 4.41 to 3.81 with the effect of string length. The critical load calculated in this paper is the minimum value when helical buckling just occurs. The results obtained in the current study have wide engineering applications, particularly in failure analysis and prevention of helical buckling. 2021-06-23T12:14:11Z 2021-06-23T12:14:11Z 2019 Journal Article Zhang, Q., Jiang, B., Xiao, Z., Cui, W. & Liu, J. (2019). On the failure configuration of suspended tubular strings when helical buckling just occurs. Journal of Petroleum Science and Engineering, 174, 406-417. https://dx.doi.org/10.1016/j.petrol.2018.11.033 0920-4105 https://hdl.handle.net/10356/151413 10.1016/j.petrol.2018.11.033 2-s2.0-85057176723 174 406 417 en Journal of Petroleum Science and Engineering © 2018 Elsevier B.V. All rights reserved. |
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Engineering::Mechanical engineering Suspended Tubular Strings Helical Buckling |
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Engineering::Mechanical engineering Suspended Tubular Strings Helical Buckling Zhang, Qiang Jiang, Bao Xiao, Zhongmin Cui, Wei Liu, Jubao On the failure configuration of suspended tubular strings when helical buckling just occurs |
| description |
When the sinusoidal buckling of suspended tubular strings is transforming to helical buckling, the deformation changes drastically, which makes the tubular strings extremely unstable. The quantitative description of this buckling configuration in previous theoretical studies is not precise enough. In our current study, dynamic relaxation method is applied to carry out numerical simulation of buckling transition of suspended tubular strings. To obtain stable buckling configurations, larger Rayleigh damping is used to attenuate the dynamic effect. With the increase of axial compression load, the lateral buckling of the suspended strings suddenly becomes spiral shape with two contact points. As the string length increases, the position of the lower contact point remains almost at the same position. While the upper contact point gradually moves upward, and the helix angle between the two points increases and gradually tends to be constant. The maximum contact force is located at the lower contact point, the maximum shear force is located at the bottom of the strings, and the dimensionless distance between the location of the maximum bending moment and the well bottom is about 1.0. These loads, including the maximum contact force, maximum shear force and maximum bending moment, gradually decrease with the increasing string length and tend to be constant. The dimensionless critical load is reduced from 4.41 to 3.81 with the effect of string length. The critical load calculated in this paper is the minimum value when helical buckling just occurs. The results obtained in the current study have wide engineering applications, particularly in failure analysis and prevention of helical buckling. |
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School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Zhang, Qiang Jiang, Bao Xiao, Zhongmin Cui, Wei Liu, Jubao |
| format |
Article |
| author |
Zhang, Qiang Jiang, Bao Xiao, Zhongmin Cui, Wei Liu, Jubao |
| author_sort |
Zhang, Qiang |
| title |
On the failure configuration of suspended tubular strings when helical buckling just occurs |
| title_short |
On the failure configuration of suspended tubular strings when helical buckling just occurs |
| title_full |
On the failure configuration of suspended tubular strings when helical buckling just occurs |
| title_fullStr |
On the failure configuration of suspended tubular strings when helical buckling just occurs |
| title_full_unstemmed |
On the failure configuration of suspended tubular strings when helical buckling just occurs |
| title_sort |
on the failure configuration of suspended tubular strings when helical buckling just occurs |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151413 |
| _version_ |
1703971192327634944 |