Abstract
The reasons, process, and dangerous consequences of two-phase flow erosion corrosion are analyzed. Then we introduced the research methods and the latest study progress of two-phase flow erosion corrosion. The influence laws of the velocity of flow, flow state, temperature, pH value, ion concentration, pipe structure, and material properties on the erosion corrosion are explained, and the future key research directions are prospected.
Copyright 2017, Shaanxi Petroleum Society.
This paper was prepared for presentation at the 2017 International Petroleum and Petrochemical Technology Conference in Beijing, China, 20–22 March, 2017.
This paper was selected for presentation by the IFEDC&IPPTC Committee following review of information contained in an abstract submitted by the author(s). Contents of the paper, as presented, have not been reviewed by the IFEDC&IPPTC Committee and are subject to correction by the author(s). The material does not necessarily reflect any position of the IFEDC&IPPTC Committee, its members. Papers presented at the Conference are subject to publication review by Professional Committee of Petroleum Engineering of Shaanxi Petroleum Society. Electronic reproduction, distribution, or storage of any part of this paper for commercial purposes without the written consent of Shaanxi Petroleum Society is prohibited. Permission to reproduce in print is restricted to an abstract of not more than 300 words; illustrations may not be copied. The abstract must contain conspicuous acknowledgment of IFEDC&IPPTC. Contact email: paper@ifedc.org or paper@ipptc.org.
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References
Bozzini B, Ricotti ME (2003) Evaluation of erosion-corrosion in multiphase flow via CFD and experimental analysis. Wear 255(1):237
Dai Z, Ding GQ, Shen SM (2007) Erosion corrosion and protection of metals in solid-liquid two-phase fluid. Corrosion Protect 27(2):86–89
Wang JC (2013) Synergistic effect of liquid solid two phase flow erosion corrosion. Eng Mater Sci 10
Yong XY (2002) New progress in the study of flow corrosion. Corrosion Sci Protect Technol 14(1):32–34
Kou J (2007) Progress in the study of flow corrosion. Oil Gas Field Surf Eng 26(10):4–5
Sun LL, Wang ZC (2015) Study on erosion corrosion behavior of casing steel in hydraulic fracturing fluid. Chem Mach 42(2):176–179
Hodgkiss T, Nevile A, Shrestha S (2004) Electrochemical and mechanical interactions during erosion-corrosion of a high-velocity oxy-fuel coating and a stainless steel. Wear 37(11):37–40
Syrett BC (1976) Corrosion 32(6):242
API RP14E (1991) Recommended practice for design and installation of offshore production platform piping system. API, Washington DC
Lin YZ, Liu JJ (1999) Application of numerical calculation in fluid corrosion research—(I) corrosion of metals in laminar flow. J Corrosion Protect China 19(1):1–7
Lin YZ, Liu JJ (1999) Application of numerical calculation in fluid corrosion study—(II) corrosion of metals in turbulent flow. J Corrosion Protect China 19(1):8–14
Mao JJ (2012) Study of pipeline erosion corrosion of gas-liquid two-phase flow. PhD thesis, Shandong University
Chen J, Liu YF (2013) Numerical calculation of erosion corrosion of three way pipe. Contemp Chem Eng 42(1):76–79
Hu YH (2012) Numerical simulation of erosion corrosion of typical pipe fittings, PhD thesis, Zhejiang University
Li Y, Zeng XG (2013) Numerical simulation of gas liquid two phase flow in oil and gas pipe. Petrol Mach 43(12):104–108
Lin CH, Feng YM (2014) Predictions of hydrodynamic characteristics and corrosion rates using CFD in the piping systems of pressurized-water reactor power plant. Ann Nucl Energy 65:214–222
Postlethwaite J (1993) Nesic Corrosion 49(10):850
Yang Y, Cheng YF (2012) Parametric effects on the erosion-corrosion rate and mechanism of carbon steal pipes in oil sands slurry. Wear 276(277):141–148
Yi GW, Yang Q, Li QS (2012) Numerical simulation of erosion of thin granular fluid on bend. J Nat Sci Hunan Normal Univ 35(5):56–60
Li ZB, Hu GQ (2000) Cavitation cavitation and new development of hydraulic system. Machine Tool And Hydraulic Press, China, pp 6–8
Sun J (2016) Numerical simulation of bubble erosion corrosion for pitting corrosion. Shandong Ind Technol 15(39):46
Habib MA, Mansour BR, Ahmed Wael (2013) Hoil-water two-phase flow redistribution in horizontal and near horizontal pipelines. Int J Fluid Mech Res 40(6):494–511
Gong M (1995) Some influencing factors of erosion corrosion and its research methods. J Sichuan Inst Light Ind Chem Technol 8(1):53–57
Liu J, Li HF, Zhou Yu (2016) Influence of the naphthenic acid corrosion of low carbon steel temperature and turbulence. J Petrol 32(3):556–558
Yu H, Zheng YG, Yao ZM (2006) The cavitation erosion and erosion-corrosion behavior of carbon steel in simulating solutions of three rivers of China. Mater Corros 57(9):705–714
Yu F, Chen Y, Wang G (2012) Effect of pH, ion concentration and temperature on electrochemical corrosion behavior of 20A carbon steel in sodium chloride solution. Clean World 28(9):22–26
Nazari MH, Allahkaram SR, Kermani MK (2010) The effects of temperature and pH on the characteristics of corrosion product in CO2 corrosion of grade X70 steel. Mater Design 35(1):59
Huang XS, Jiang XP, Li Q (2007) Study on multiphase flow corrosion mathematical model of oil field gathering pipeline. Oil Stor Transport 26(3):25–28
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Cai, Z., Wang, S., Zhao, S. (2019). The Research Progress on the Erosion Corrosion of Two-Phase Fluid in Oil and Gas Pipe. In: Qu, Z., Lin, J. (eds) Proceedings of the International Field Exploration and Development Conference 2017. Springer Series in Geomechanics and Geoengineering. Springer, Singapore. https://doi.org/10.1007/978-981-10-7560-5_132
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DOI: https://doi.org/10.1007/978-981-10-7560-5_132
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