The Role of the Biological Factor in the Corrosion Damage of the Metal of Underground Oil and Gas Pipelines

被引:0
|
作者
Polutrenko, M. S. [1 ]
Maruschak, P. O. [2 ]
Prentkovskis, O. [3 ]
机构
[1] Ivano Frankivsk Natl Tech Univ Oil & Gas, Karpatska 15, UA-76000 Ivano Frankivsk, Ukraine
[2] Ternopil Ivan Puluj Natl Tech Univ, Ruska 56, UA-46001 Ternopol, Ukraine
[3] Vilnius Gediminas Tech Univ, Dept Transport Technol Equipment, Plytines Str 27, LT-10105 Vilnius, Lithuania
来源
PROCEEDINGS OF THE 20TH INTERNATIONAL SCIENTIFIC CONFERENCE TRANSPORT MEANS 2016 | 2016年
关键词
gas pipeline; pipeline transport; damage; corrosion; MICROBIOLOGICALLY INFLUENCED CORROSION;
D O I
暂无
中图分类号
U [交通运输];
学科分类号
08 ; 0823 ;
摘要
The systematic laboratory studies on the roles of sulfate-reducing bacteria (SRB) in the service damage of 17G1S-U steel was subjected. The basic regularities in biocorrosion and morphology of the surface of damaged specimens are found using electron microscopy, and the impact of the inhibitor nature on the degree of protection of steel specimens was evaluated. Some corrosion mechanisms, and protective methods about SRB were also described here.
引用
收藏
页码:424 / 427
页数:4
相关论文
共 50 条
  • [21] The corrosion damage mechanisms of the gas pipelines in the Republic of Sakha (Yakutia)
    Syromyatnikova, Aytalina
    Bolshakov, Alexander
    Ivanov, Alexander
    Alexeev, Anisiy
    Bolshev, Konstantin
    Andreev, Yakov
    1ST INTERNATIONAL CONFERENCE ON INTEGRITY AND LIFETIME IN EXTREME ENVIRONMENT (ILEE-2019), 2019, 20 : 259 - 264
  • [22] Metallic Under-Layer Coating as Third Line of Protection of Underground Oil and Gas Pipelines from External Corrosion
    Papavinasam, S.
    Arsenault, B.
    Attard, M.
    Revie, R. W.
    CORROSION, 2012, 68 (12) : 1146 - 1153
  • [23] Advances in corrosion growth modeling for oil and gas pipelines: A review
    Ma, Haonan
    Zhang, Weidong
    Wang, Yao
    Ai, Yibo
    Zheng, Wenyue
    PROCESS SAFETY AND ENVIRONMENTAL PROTECTION, 2023, 171 : 71 - 86
  • [24] Internal corrosion of seabed ?parked? steel oil and gas pipelines
    Melchers, Robert E.
    OCEAN ENGINEERING, 2023, 276
  • [25] New α-Aminophosphonates as Corrosion Inhibitors for Oil and Gas Pipelines Protection
    Nikitin, E. N.
    Shumatbaev, G. G.
    Terenzhev, D. A.
    Sinyashin, K. O.
    Kazimova, K. S.
    CIVIL ENGINEERING JOURNAL-TEHRAN, 2019, 5 (04): : 963 - 970
  • [26] Predictive Model for Pitting Corrosion in Buried Oil and Gas Pipelines
    Velazquez, J. C.
    Caleyo, F.
    Valor, A.
    Hallen, J. M.
    CORROSION, 2009, 65 (05) : 332 - 342
  • [27] Prediction of maximum pitting corrosion depth in oil and gas pipelines
    Ben Seghier, Mohamed El Amine
    Keshtegar, Behrooz
    Tee, Kong Fah
    Zayed, Tarek
    Abbassi, Rouzbeh
    Nguyen Thoi Trung
    ENGINEERING FAILURE ANALYSIS, 2020, 112
  • [28] A comprehensive review on internal corrosion and cracking of oil and gas pipelines
    Askari, M.
    Aliofkhazraei, M.
    Afroukhteh, S.
    JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING, 2019, 71
  • [29] Model to Predict Internal Pitting Corrosion of Oil and Gas Pipelines
    Papavinasam, S.
    Doiron, A.
    Revie, R. W.
    CORROSION, 2010, 66 (03)
  • [30] Comparison of techniques for monitoring corrosion inhibitors in oil and gas pipelines
    Papavinasam, S
    Revie, RW
    Attard, M
    Demoz, A
    Michaelian, K
    CORROSION, 2003, 59 (12) : 1096 - 1111
12345