DC stray current mitigation for natural gas pipeline adjacent to aluminum manufacturing facility

被引:0
|
作者
Maxwell, JL [1 ]
机构
[1] CNG, Corros Control, Seattle, WA 98109 USA
来源
MATERIALS PERFORMANCE | 1999年 / 38卷 / 11期
关键词
D O I
暂无
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
The production of aluminum can produce large dynamic stray currents in the earth surrounding the production plant. When coated pipelines that are not grounded pass through the dynamic stray current area, they can realize failures at accelerated rates, even with traditional cathodic protection systems in operation. This article tracks a coated 20-in. (51-cm) natural gas pipeline installed near an aluminum production facility and the stray current mitigation design installed to overcome the accelerated failure problem. Other types of stray current mitigation have been attempted in this same area without similar success.
引用
收藏
页码:26 / 29
页数:4
相关论文
共 31 条
  • [21] Unraveling Mechanisms and Failures of Stray Current Corrosion in Urban Subway Adjacent Pipeline Networks Through Statistical Insights and 3d Simulation
    Hu, Qunfang
    Zhang, Zongyang
    Zhang, Yu
    Wang, Fei
    Su, Zhan
    Fang, Hongyuan
    SSRN, 2023,
  • [22] Unraveling mechanisms and failures of stray current corrosion in urban Subway adjacent pipeline networks through statistical insights and 3D simulation
    Hu, Qunfang
    Zhang, Zongyuan
    Zhang, Yu
    Wang, Fei
    Su, Zhan
    Fang, Hongyuan
    SCIENCE OF THE TOTAL ENVIRONMENT, 2024, 927
  • [23] Live bottom impact reduction, mitigation, and monitoring for the construction of a subsea natural gas pipeline in the Gulf of Mexico
    Ellsworth, S
    Schmidt, J
    Martin, D
    Shaul, R
    OFFSHORE OIL AND GAS ENVIRONMENTAL EFFECTS MONITORING: APPROACHES AND TECHNOLOGIES, 2005, : 543 - 564
  • [24] High Voltage DC Auto-Transformer Traction Power Supply for Braking Energy Utilization, Rail Potential, and Stray Current Mitigation
    Wang, Miao
    Yang, Xiaofeng
    Li, Shixiang
    Zhu, Yongqi
    Feng, Wenyi
    Zheng, Trillion Q.
    IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION, 2022, 8 (03) : 3960 - 3976
  • [25] THE PIPELINE TRANSPORTATION OF NATURAL GAS AND ADJUSTMENT OF FREE ACESS IN BRAZIL: HISTORICAL AND CURRENT PERSPECTIVES
    de Siqueira, Mariana
    de Alencar Xavier, Yanko Marcius
    REVISTA DIREITO E LIBERDADE, 2007, 7 (03) : 343 - 370
  • [26] Effectiveness of Measures on Natural Gas Pipelines for Mitigating the Influence of DC Ground Current
    Meng, Xiaobo
    Zhang, Bo
    Cao, Fangyuan
    Liao, Yongli
    IEEE TRANSACTIONS ON POWER DELIVERY, 2024, 39 (04) : 2414 - 2423
  • [27] Novel method for prediction of corrosion current density of gas pipeline steel under stray current interference based on hybrid LWQPSO-NN model
    Wang, Chengtao
    Li, Wei
    Xin, Gaifang
    Wang, Yuqiao
    Xu, Shaoyi
    Fan, Mengbao
    MEASUREMENT, 2022, 200
  • [28] COMPARISON OF EFFECT OF STRAY DC CURRENT ON CORROSION OF 6061-T6 AND 5086-H34 ALUMINUM IN SALT-WATER
    LENNOX, TJ
    PETERSON, MH
    REPORT OF NRL PROGRESS, 1976, (JUL): : 21 - 23
  • [29] Advances in reducing hydrogen effect of pipeline steels on hydrogen-blended natural gas transportation: A systematic review of mitigation strategies
    Zhu, Yong-Qiang
    Song, Wei
    Wang, Han-Bing
    Qi, Jian-Tao
    Zeng, Rong-Chang
    Ren, Hao
    Jiang, Wen-Chun
    Meng, Hui-Bo
    Li, Yu-Xing
    RENEWABLE & SUSTAINABLE ENERGY REVIEWS, 2024, 189
  • [30] Effect of a DC Stray Current on the Corrosion of X80 Pipeline Steel and the Cathodic Disbondment Behavior of the Protective 3PE Coating in 3.5% NaCl Solution
    Wang, Xinhua
    Wang, Zuquan
    Chen, Yingchun
    Song, Xuting
    Yang, Yong
    COATINGS, 2019, 9 (01)
1234