Inspekcija cevovoda u eksploataciji i analiza uzroka otkaza


Sanja Petronić Radomir Jovičić Aleksandar Sedmak Aleksandar Petrović Aurel Valentin Birdeanu Dragan Vasalić


Inspekcija cevovoda u eksploataciji i analiza uzroka otkaza


Kako citirati
PETRONIĆ, Sanja et al. Inspekcija cevovoda u eksploataciji i analiza uzroka otkaza. Procesna tehnika, [S.l.], v. 30, n. 1, p. 32-39, july 2018. ISSN 2217-2319. Dostupno na: <>. Datum pristupa: 10 dec. 2018 doi:
Inženjerska praksa


[1] ***, Pravilnik o pregledima opreme pod pritiskom tokom veka upotrebe, "Sl. glasnik RS", br. 87/2011
[2] ***, Pravilnik o tehničkim zahtevima za projektovanje, izradu i ocenjivanje usaglašenosti opreme pod pritiskom, "Sl. glasnik RS", br. 87/2011
[3] US DOT. Pipeline and Hazardous Materials Safety Administration
[4] ***, SRPS EN 13480-5, Industrijski metalni cevovodi – Deo 5: Ispitivanje i kontrolisanje
[5] McStraw, B., Inspection of steel penstocks and pressure conduits, Facilities instructions, standards, and techniques, 2-8, (2000), Hydroelectric Research and Technical Services Group, United States Department of the Interior Bureau of Reclamation Denver, Colorado
[6] American Society of Civil Engineers, Guidelines for Inspection and Monitoring of In-Service Penstocks, by Task Committee Inspection and Monitoring of In-Service Penstocks of the Energy Division of ASC American Society of Civil Engineers, Reston, VA 978-0-7844-0378-5 (ISBN-13) | 0-7844-0378-3 (ISBN-10), 2000
[7] Reason,J., Human error: models and management, British Medical Journal 320, (2000) 7237, pp. 768–770.
[8] Ossai, C. I., Boswell, B., Davies, I.J., Review, Pipeline failures in corrosive environments – A conceptual analysis of trends and effects, Engineering Failure Analysis, 53 (2015) 36–58.
[9] Miller, R., Why pipes matter: the importance of clad pipes in the oil and gas industry; 2013
[10] Nesic, S., Key issues related to modelling of internal corrosion of oil and gas pipelines – a review. Corrosion Science 49, (2007), pp. 4308–38.
[11] Singer, M., Brown, B., Camacho, A., Nesic, S., Combined effect of carbon dioxide hydrogen sulfide and acetic acid on bottom-of-the-line corrosion. Corrosion 67 ,1, (2011), pp.015004-01 – 015004-16.
[12] Bedairi, B., Cronin, D., Hosseini, A., Plumtree, A., Failure prediction for crack-in-corrosion defects in natu-ral gas transmission pipelines. Int J Press Vessels Pip 96,97 (2012), pp. 90–99.
[13] Ahmed, T.M., Lambert, S.B., Sutherby, R., Plumtree, A., Cyclic crack growth rates of X-60 pipeline steel in a neutral dilute solution. Corrosion (NACE), 53,7, (1997), pp. 581–590.
[14] Pilkey, A.K., Lamberf, S.B., Plumtree, A. Stress corrosion cracking of X-60 line pipe steel in a carbonate-bicarbonate solution. Corrosion Science, 51,2, (1995), pp. 91–996.
[15] Singh, M., Markeset, T., Simultaneous handling of variability and uncertainty in probabilistic and possibil-istic failure analysis of corroded pipes. International Journal of System Assurance Engineering and Man-agement, 5, (2014), pp.43–54.
[16] Ossai, C.I., Advances in asset management techniques: an overview of corrosion mechanisms and mitigation strategies for oil and gas pipelines. ISRN Corrosion, vol. 2012., Arti-cle ID 570143.
[17] Meresht, E.S., Farahani, T.S., Neshati, J., Failure analysis of stress corrosion cracking occurred in a gas transmission steel pipeline. Eng Fail Anal , 18, (2011), pp. 963–970.
[18] Breton, T., Sanchez-Gheno, J.C., Alamillac, J.L., Alvarez-Ramirez, J., Identification of failure type in cor-roded pipelines: a Bayesian probabilistic approach. J Hazard Mater, 179, (2010), 628–634.
[19] Sinha, S.K., McKim, R.A. Probabilistic based integrated pipeline management system, Tunn Undergr Space Technol 22, (2007), 543–552.
[20] M. Stone., The Issue of Terrorism, World Pipelines, (2005), pp. 22-27.
[21] R. Brown., Iraq’s Pipeline War, World Pipelines, (2005), pp. 22-31.
[22] L. Morrissey., Pipeline security – a pipe dream?, World Pipelines, (2007) p.17. See- for other data.
[23] Adamkowski, A., Case Study: Lapino Powerplant Penstock Failure, Journal of Hydraulic Engineering, 127, (2001),pp. 547 – 555.
[24] Bonin, C. C. Waterhammer damage to Oigawa power plant, Trans. ASME, J. Engrg. for Power, Series A, 82(2), 111–119.
[25] Chaudhry, M. H. Applied hydraulic transients, Van Nostrand Reinhold, New York, 1979.
[26] Arrington, R. M., Proc. 3,rd ASME/JSME Joint Fluid Engrg. Conf., Failure of water-operated needle valves at Bartlett Dam and Oneida station hydroelectric plant, San Francisco, Calif., 1999, pp. 1–5.
[27] Kahl, T.L., Penstock Condition Assessment,Northwest Hydro Association, Technical Seminar, P.E. Klein-schmid, 2012.
[28] Sedmak, S., Sedmak, A,, Integritet cevovoda hidroelektrane, Integritet i vek konstrukcija 5, (2005), 2, pp. 59–70.