Experimental and numerical simulation of erosion-corrosion of 90° steel elbow in shale gas pipeline

IF 4.9 2区工程技术 Q2 ENERGY & FUELS

Journal of Natural Gas Science and Engineering Pub Date : 2021-05-01 DOI:10.1016/j.jngse.2021.103871

Wenlong Jia , Yuanrui Zhang , Changjun Li , Peng Luo , Xiaoqin Song , Yuzhu Wang , Xinyi Hu

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引用次数: 20

Abstract

Coexistence of the solid particle erosion and acid liquid corrosion is common in shale gas gathering and transportation pipelines. It is conceivable that the synergistic effect of erosion and corrosion accelerates the pipeline damage process. In this research, a novel experimental device is designed to study the erosion-corrosion characteristics of 90° steel elbow in the gas-liquid-solid three-phase flow. A total of 28 group experiments are designed including 4 gas velocities, 3 liquid pH values, and 150 μm average sand particles. Moreover, a numerical simulation model is built based on the FLUENT code to predict the erosion-corrosion behavior. Experimental and simulation results show that the most severe erosion-corrosion region of the pipe bend occurs at the axial angle of the elbow between 20° and 50° and at the radial angle of the elbow between −45° and 45°. At the bottom of the elbow and the outer wall surface close to the outlet, the synergistic effect of erosion and corrosion accelerates the wear of the pipeline, but the opposite phenomenon exists at the position of the elbow with an axial angle of 50–70°.

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页岩气管道90°钢弯头冲蚀试验与数值模拟

在页岩气集输管道中，固体颗粒侵蚀与酸液腐蚀共存是常见现象。可以想象，冲蚀和腐蚀的协同作用加速了管道的破坏过程。在本研究中，设计了一种新型的实验装置来研究90°钢弯头在气-液-固三相流中的冲蚀特性。共设计了28组实验，包括4种气速、3种液体pH值和150 μm平均沙粒。在此基础上，建立了基于FLUENT的数值模拟模型，对侵蚀-腐蚀行为进行了预测。实验和仿真结果表明，弯管的侵蚀腐蚀最严重的区域出现在弯头轴向角20°~ 50°和弯头径向角- 45°~ 45°之间。在弯头底部和靠近出口的外壁面，冲蚀和腐蚀的协同作用加速了管道的磨损，但在轴向角为50-70°的弯头位置则存在相反的现象。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Natural Gas Science and Engineering ENERGY & FUELS-ENGINEERING, CHEMICAL

CiteScore

8.90

自引率

0.00%

发文量

388

审稿时长

3.6 months

期刊介绍： The objective of the Journal of Natural Gas Science & Engineering is to bridge the gap between the engineering and the science of natural gas by publishing explicitly written articles intelligible to scientists and engineers working in any field of natural gas science and engineering from the reservoir to the market. An attempt is made in all issues to balance the subject matter and to appeal to a broad readership. The Journal of Natural Gas Science & Engineering covers the fields of natural gas exploration, production, processing and transmission in its broadest possible sense. Topics include: origin and accumulation of natural gas; natural gas geochemistry; gas-reservoir engineering; well logging, testing and evaluation; mathematical modelling; enhanced gas recovery; thermodynamics and phase behaviour, gas-reservoir modelling and simulation; natural gas production engineering; primary and enhanced production from unconventional gas resources, subsurface issues related to coalbed methane, tight gas, shale gas, and hydrate production, formation evaluation; exploration methods, multiphase flow and flow assurance issues, novel processing (e.g., subsea) techniques, raw gas transmission methods, gas processing/LNG technologies, sales gas transmission and storage. The Journal of Natural Gas Science & Engineering will also focus on economical, environmental, management and safety issues related to natural gas production, processing and transportation.