Corrosion Science and Technology

  • 제14권1호
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  • Pages.12-18
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  • 2015
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  • 1598-6462(pISSN)
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  • 2288-6524(eISSN)
한국부식방식학회 (The Corrosion Science Society of Korea)
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REAL-TIME CORROSION CONTROL SYSTEM FOR CATHODIC PROTECTION OF BURIED PIPES FOR NUCLEAR POWER PLANT

  • Kim, Ki Tae (Materials Research Center for Energy and Clean Technology, School of Materials Science and Engineering, Andong National University) ;
  • Kim, Hae Woong (Materials Research Center for Energy and Clean Technology, School of Materials Science and Engineering, Andong National University) ;
  • Kim, Young Sik (Materials Research Center for Energy and Clean Technology, School of Materials Science and Engineering, Andong National University) ;
  • Chang, Hyun Young (Power Engineering Research Institute, KEPCO Engineering & Construction Company) ;
  • Lim, Bu Taek (Power Engineering Research Institute, KEPCO Engineering & Construction Company) ;
  • Park, Heung Bae (Power Engineering Research Institute, KEPCO Engineering & Construction Company)
  • 투고 : 2015.01.08
  • 심사 : 2015.02.23
  • 발행 : 2015.02.28
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초록

Since the operation period of nuclear power plants has increased, the degradation of buried pipes gradually increases and recently it seems to be one of the emerging issues. Maintenance on buried pipes needs high quality of management system because outer surface of buried pipe contacts the various soils but inner surface reacts with various electrolytes of fluid. In the USA, USNRC and EPRI have tried to manage the degradation of buried pipes. However, there is little knowledge about the inspection procedure, test and manage program in the domestic nuclear power plants. This paper focuses on the development and build-up of real-time monitoring and control system of buried pipes. Pipes to be tested are tape-coated carbon steel pipe for primary component cooling water system, asphalt-coated cast iron pipe for fire protection system, and pre-stressed concrete cylinder pipe for sea water cooling system. A control system for cathodic protection was installed on each test pipe which has been monitored and controlled. For the calculation of protection range and optimization, computer simulation was performed using COMSOL Multiphysics (Altsoft co.).

키워드

참고문헌

  1. Inspection Procedure 62002, Inspection of Structures, Passive Components, and Civil Engineering Features at Nuclear Power Plants, USNRC, December (1996).
  2. EPRI-1016456, Recommendations for an Effective Program to Control the Degradation of Buried and Underground Piping and Tanks, EPRI, 2010 Technical Report. Revision 1 (2010).
  3. EPRI-1021626, Nondestructive Evaluation: Buried Pipe Nondestructive Evaluation Reference Guide Rev. 1, EPRI, December (2011).
  4. EPRI-1019115, Buried Pipe Guided Wave Examination Reference Document, EPRI, October (2009).
  5. EPRI-1015156, Nondestructive Evaluation : Guided Wave Technology Development and Nuclear Application Assessment, EPRI, December (2007).
  6. EPRI-1008186, Condition Assessment of Large- Diameter Buried Piping: Phase 1-Feasibility, EPRI, November (2004).
  7. EPRI-1011829, Condition Assessment of Large- Diameter Buried Piping: Phase 2-Vehicle Design and Construction, EPRI, December (2005).
  8. EPRI-1013468, Condition Assessment of Large- Diameter Buried Piping: Phase 3-Field Trial, EPRI, December (2006).
  9. ER-AA-5400, Buried Piping and Raw Water Corrosion Program (BPRWCP) Guide, Excelon Nuclear.
  10. Y. S. Kim, H. Y. Chang, and S. H. H, Corros. Sci. Tech., 31, 70 (2002).
  11. H. Y. Chang, I. S. So, T. E. Jin, Y. S. Kim, Y. R. Yoo, and M. S. Kang, Corros. Sci. Tech., 5, 5 (2006).
  12. NACE Standard RP0100, Cathodic protection of pre-stressed concrete cylinder pipelines.
  13. NACE Standard RP0575, Internal cathodic protection systems in oil-treating vessels.
  14. ASTM G4, Standard guide for conducting corrosion tests in field applications.

피인용 문헌

  1. Protection Performance Simulation of Coal Tar-Coated Pipes Buried in a Domestic Nuclear Power Plant Using Cathodic Protection and FEM Method vol.16, pp.3, 2015, https://doi.org/10.14773/cst.2017.16.3.115
  2. Effect of Applied Voltage on the Reliability of Coating Flaw Detection of Pipe with Different Buried Depths vol.18, pp.6, 2015, https://doi.org/10.14773/cst.2019.18.6.277
  3. 매설 배관 피복 결함 탐상 정확도에 미치는 인접 정류기 및 접지 구리망 간섭의 영향 vol.19, pp.4, 2020, https://doi.org/10.14773/cst.2020.19.4.211
  4. 다전극 탐상을 통한 토중 매설배관 피복결함 탐상 정확도의 개선 vol.19, pp.5, 2015, https://doi.org/10.14773/cst.2020.19.5.265