1. Analysis and optimization design of internal pressure resistance of flexible composite pipe.
- Author
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Zeng, Dezhi, Wang, Xi, Ming, Kunji, Yu, Chengxiu, Zhang, Yonghu, Yu, Zhiming, Yan, Jing, and Li, Fagen
- Subjects
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PIPE , *FINITE element method , *STEEL pipe , *CARBON steel , *OIL wells , *PETROLEUM pipelines - Abstract
Flexible composite pipes have the advantages of light weight, corrosion resistance, scale resistance, and low cost compared to carbon steel pipes, and have attracted much attention in the application of onshore oil and gas gathering and transportation systems. Understanding the relationship between the pressure-bearing mechanical properties of composite pipes and their structural characteristics is crucial for guiding their process application. To investigate the mechanical behavior of flexible composite pipes under internal pressure loads, discrete and combined finite element models were established to analyze the stress-strain characteristics of flexible composite pipes. The bursting strength was predicted, and the influence of winding angle and number of reinforcement layers on the pressure-bearing capacity of flexible composite pipes was revealed. The applicability of the two models in the analysis of internal pressure resistance of flexible composite pipes was evaluated using whole pipe strain testing and instantaneous hydrostatic burst experiments. The results showed that the reinforcement layer is the main pressure-bearing layer of flexible composite pipes, and the innermost reinforcement layer bears the highest pressure. The pressure-bearing capacity of flexible composite pipes significantly increases when the winding angle is greater than 53°, and the increase in pressure-bearing capacity slows down when the number of reinforcement layers exceeds 3. Under the combination model, the strain and bursting strength of flexible composite pipes were closer to the experimental results. The study clearly defines the stress-strain characteristics of flexible composite pipes under internal pressure load and the impact of process parameters, providing a basis for the optimization design of single well oil transmission pipelines in Xinjiang oilfield. • The burst strength of flexible composite pipes was predicted. • The applicability of the mechanical properties analysis models of flexible composite pipes was evaluated. • The effect of structural parameters on the internal pressure resistance of flexible composite pipes was elucidated. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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