Transactions of the Korean Society of Mechanical Engineers B (대한기계학회논문집B)

The Korean Society of Mechanical Engineers (대한기계학회)
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Application and Verification of Cold Air Velocity Technique for Solving Tube Ash Erosion Problem in PC Boilers

석탄화력발전소 보일러 튜브 마모 문제에 관한 저온공기 속도 측정법 적용 및 검증

  • Yoo, Ki-Soo (Technology Center, Korea Southern Power Corporation) ;
  • Jeong, Kwon-Seok (Technology Center, Korea Southern Power Corporation)
  • 유기수 (한국남부발전 기술지원센터) ;
  • 정권석 (한국남부발전 기술지원센터)
  • Received : 2011.12.20
  • Accepted : 2012.03.05
  • Published : 2012.06.01
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Abstract

Fly ash erosion is a leading cause of boiler tube failure in PC boilers. Therefore, shields or baffle plates are installed in specific areas to mitigate fly ash erosion and prevent boiler tube failure. However, the tube failure problems caused by fly ash erosion cannot be eliminated with this solution alone, because each PC boiler has a different flue-gas flow pattern and erosion can become severe in unexpected zones. This problem is caused by an asymmetric internal flow velocity and local growth of the flue gas velocity. For these reasons, clearly defining the flow pattern in PC boilers is important for solving the problem of tube failure caused by fly ash erosion. For this purpose, the cold air velocity technique (CAVT) can be applied to the fly ash erosion problem. In this study, CAVT was carried out on the Hadong #2 PC boiler and the feasibility of application of CAVT to conventional PC boilers was validated.

비산회에 의한 보일러 튜브 마모 문제는 석탄화력 보일러 튜브 파손에 주요한 요인이 된다. 때문에 튜브 보호막이나 다공판 등이 마모 문제 완화를 위하여 사용되고 있다. 그러나 비산회에 의한 튜브마모 문제는 이런 방법을 통하여 완전히 해결될 수 없는데 이는 보일러 마다 유동 조건이 다를 뿐만아니라 예상치 못한 위치에서 국부적으로 마모가 심화될 수 있기 때문이다. 문제는 보일러 내부 비대칭 유동과 국부적 유속 증가에서 기인함으로 튜브 마모 문제의 해결에 있어서 보일러 내부 유동을 명확히 파악하는 것이 무엇 보다 중요하다 하겠다. 본 연구에서는 튜브 마모 문제에 해결을 위해 사용되는 Cold Air Velocity Technique(CAVT)에 대하여 고찰하고 하동화력 2호기 보일러에 대하여 CAVT를 실제 적용함으로써 석탄화력 보일러에 있어서 CAVT 적용 가능성을 검증하였다.

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References

  1. Doolye, R.B. and McNaughton, W.P., 2007,"Boiler and Heat Recovery Steam Generator Tube Failures : Theory and Practice Volume 1 Fundamentals," EPRI TR-1012757.
  2. Doolye, R.B. and McNaughton, W.P., 2007, "Boiler and Heat Recovery Steam Generator Tube Failures : Theory and Practice Volume 1 Water Touched Tubes," EPRI TR-1012757.
  3. Doolye, R.B. and W.P., McNaughton, 2007, "Boiler and Heat Recovery Steam Generator Tube Failures : Theory and Practice Volume 1 Steam Touched Tubes," EPRI TR-1012757.
  4. Tabkoff, W., Kotwal, R. and Hamend, A., 1979, "Erosion Study of Different Materials Affected by Coal Ash Particles,, Journal of WEAR, Volume 52, Issue 1, pp. 161-173. https://doi.org/10.1016/0043-1648(79)90206-0
  5. Ellerman, A. D., 1995, "The World Price Of Coal," Energy Policy, Volume 23, Issue 6, pp. 499-506. https://doi.org/10.1016/0301-4215(95)91231-Z
  6. Drennen, J.F. and Kratian, P., 1994, "Guidelines for the Controland Prevention of Fly Ash Erosion in Fossil Fired Power Plants," EPRI TR-102432
  7. Doolye, R.B., 2004, "Demonstration of the Cold Air Velocity Technique to Control Fly Ash Erosion at a National Thermal Power Corporation(NTPC) Plant," EPRI, Palo Alto, 1010542.