Теоретическая оценка влияния электрического контакта трубопровода с защитными заземлениями электроустановок на распределение тока катодной защиты в подземном трубопроводе

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Об авторах

С. С. Гуськов
Giprogazcentr JSC
Россия


Р. В. Агиней
Giprogazcentr JSC
Россия


Е. В. Исупова
Federal State Budgetary Education Institution of Higher Education “Ukhta State Technical University”
Россия


Список литературы

1. Glotov I.V., Aginei R.V., Yushmanov V.N. Experimental Determination of Mathematical Models for Optimization of Underground Oil and Gas Pipelines Protection by Several Cathodic Stations. Zashchita okruzhayushchey sredy v neftegazovom komplekse = Environmental Protection in Oil and Gas Complex, 2009, No. 8, P. 18–22. (In Russian)

2. Korotyaev A.G. Influence of Grounding Loops on the Protection Level and the Resource of the Electrochemical Protection System of the Area Objects. Korroziya “Territorii “NEFTEGAS” = Corrosion of the Oil and Gas Territory, 2016, No. 3 (35), P. 60–62. (In Russian)

3. Prokhorov A.A, Radchenko V.V., Zhukov R.A. Experience in Designing Corrosion Protection of Underground Pipelines at ORS Sites. Nauka i tekhnologii truboprovodnogo transporta nefti i nefteproduktov = Science and Technologies of Pipeline Transport of Oil and Oil Products, 2017, Vol. 7, No. 2, P. 82–86. (In Russian)

4. Selina L.A., Teleten I.G. Designing of Electrochemical Protection Means at the Bovanenkovo-Ukhta Main Pipelines System. Results of Construction and Commissioning Work. Korroziya “Territorii “NEFTEGAS” = Corrosion of the Oil and Gas Territory, 2016, No. 3 (25), P. 76–79. (In Russian)

5. Teleten I.G., Patryshev N.Y. Features of Construction of the Electrochemical Protection System in the Presence of Earthed Structures. Korroziya “Territorii “NEFTEGAS” = Corrosion of the Oil and Gas Territory, 2014, No. 1 (27), P. 76–77. (In Russian)

6. Aginei R.V, Isupova E.V Research of the Influence of Groundings of Electrical Installations on the Efficiency of Electrochemical Protection of Underground Pipelines at the Territory of Industrial Sites. Truboprovodnyy transport: teoriya i praktika = Pipeline Transport: Theory and Practice, 2017, No. 3 (61), P. 16–20. (In Russian)

7. Zubkov A.A., Gus'kov S.S., Aginey R.V. Mathematical Model of the Geomagnetic-Induced Current Formation in an Extended Isolated Pipeline. Truboprovodnyy transport: teoriya i praktika = Pipeline Transport: Theory and Practice, 2015, No. 3, P. 16–19. (In Russian)

8. State Standard GOST R 51164-98 Steel Main Pipelines. General Requirements for Corrosion Protection. Moscow, Gosstandart of Russia, 1998, 46 p. (In Russian)

9. Tkachenko V.N. Electrochemical Protection of Pipeline Networks. Moscow, Stroyizdat, 2004, 320 p. (In Russian)


Дополнительные файлы

Для цитирования: Гуськов С.С., Агиней Р.В., Исупова Е.В. Теоретическая оценка влияния электрического контакта трубопровода с защитными заземлениями электроустановок на распределение тока катодной защиты в подземном трубопроводе. Территория «НЕФТЕГАЗ». 2017;(12):54-58.

For citation: Gus'kov S.S., Aginey R.V., Isupova E.V. Theoretical Assessment of the Electrical Contact Effect of the Pipeline with the Groundings of Electrical Equipment on the Cathodic Current Distribution in the Underground Pipeline. Territorija “NEFTEGAS” [Oil and Gas Territory]. 2017;(12):54-58.

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