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소듐 시험루프 내 소듐대 공기 열교환기의 고온 설계

High-Temperature Design of Sodium-to-Air Heat Exchanger in Sodium Test Loop

  • 투고 : 2012.12.28
  • 심사 : 2013.02.12
  • 발행 : 2013.05.01

초록

제 4 세대 소듐냉각 고속로에는 중간열교환기(IHX), 붕괴열제거 열교환기(DHX), 공기 열교환기(AHX), 핀형 소듐-공기 열교환기(FHX) 및 증기발생기(SG)를 포함한 다양한 열교환기들이 설치된다. 본 연구에서는 STELLA-1 시험루프에 설치된 소듐-공기 열교환기인 AHX 와 SELFA 시험루프에 설치될 핀형(finned) 소듐-공기 열교환기인 FHX 등 2 기의 열교환기 설계에 대해 3D 상세 유한요소해석을 수행하고, 동 결과에 기초하여 고온설계 기술기준을 따라 크리프-피로 손상평가를 수행하였다. 손상 평가결과 AHX와 FHX는 의도하는 크리프 피로 손상 하중 하에서 구조 건전성을 유지하는 것으로 확인되었다.

In a Korean Generation IV prototype sodium-cooled fast reactor (SFR), various types of high-temperature heat exchangers such as IHX (intermediate heat exchanger), DHX (decay heat exchanger), AHX (air heat exchanger), FHX (finned-tube sodium-to-air heat exchanger), and SG (steam generator) are to be designed and installed. In this study, the high-temperature design and integrity evaluation of the sodium-to-air heat exchanger AHX in the STELLA-1 (sodium integral effect test loop for safety simulation and assessment) test loop already installed at KAERI (Korea Atomic Energy Research Institute) and FHX in the SEFLA (sodium thermal-hydraulic experiment loop for finned-tube sodium-to-air heat exchanger) test loop to be installed at KAERI have been performed. Evaluations of creep-fatigue damage based on full 3D finite element analyses were conducted for the two heat exchangers according to the high-temperature design codes, and the integrity of the high-temperature design of the two heat exchangers was confirmed.

키워드

참고문헌

  1. Kim, Y. I., Jang, J. W., Lee, J. H., Kim, S. J., Kim, S. O., Kim, J. B., Jung, H. Y. and Lee, H.Y., 2012, Conceptual design report of SASFR Demonstration Reactor of 600MWe capacity, KAERI/TR-4598/2012.
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  3. Lee, H. Y., Kim, J. B. and Park, H. Y., 2012, "Creep- Fatigue Damage Evaluation of Sodium to Air Heat Exchanger in Sodium Test Loop Facility," Nuclear Engineering and Design, Vol. 250, pp.308-315. https://doi.org/10.1016/j.nucengdes.2012.05.034
  4. Lee, H. Y., Kim, J. B. and Park, H. Y., 2012, "High Temperature Design and Damage Evaluation of Mod.9Cr-1Mo Steel Heat Exchanger," Journal of Pressure Vessel Technology, Transactions of ASME, Vol. 133, Oct. pp.051101-10.
  5. Lee, H.Y. and Lee, J.H., 2010, "Development of Assessment Methodology on Creep-Fatigue Crack Behavior for a Grade 91 Steel Structure," Trans. Korean Soc. Mech. Eng. A, Vol,34,No.1, pp.103-110. https://doi.org/10.3795/KSME-A.2010.34.1.103
  6. ASME Boiler and Pressure Vessel Code, 2010, Section III, Div. 1, Subsection NH, Class 1 Components in Elevated Temperature Service.
  7. 2010, RCC-MRx Subsection B: Class N1RX Reactor Components, Its Auxiliary Systems and Supports, Draft 2010 AFCEN RCC-MRx code.
  8. Srinivasan, R., Jalaldeen, S., Biswas, A., Selvaraj, P., Chellapandi, P. and Chetal, S. C., 2007, "Optimization of Support Design of Tubes in a Sodium to Air Exchanger from Thermal, Vibration and Sieimic Loading Considerations," Transactions, SMIRT 19, Paper No. S02/6, Toronto.

피인용 문헌

  1. Evaluation of Creep-Fatigue Integrity for High Temperature Pressure Vessel in a Sodium Test Loop vol.38, pp.8, 2014, https://doi.org/10.3795/KSME-A.2014.38.8.831
  2. Design evaluation on sodium piping system and comparison of the design codes vol.29, pp.3, 2015, https://doi.org/10.1007/s12206-015-0216-9
  3. Comparison of Crack Growth Test Results at Elevated Temperature and Design Code Material Properties for Grade 91 Steel vol.39, pp.1, 2015, https://doi.org/10.3795/KSME-A.2015.39.1.027