Nuclear Engineering and Technology (Mar 2022)

Investigation of two-phase natural circulation with the SMART-ITL facility for an integral type reactor

  • Byong Guk Jeon,
  • Eunkoo Yun,
  • Hwang Bae,
  • Jin-Hwa Yang,
  • Sung-Uk Ryu,
  • Yun-Gon Bang,
  • Sung-Jae Yi,
  • Hyun-Sik Park

Journal volume & issue
Vol. 54, no. 3
pp. 826 – 833

Abstract

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A two-phase natural circulation test using SMART integral test loop (SMART–ITL) was conducted to explore thermo-hydraulic phenomena of two-phase natural circulation in the SMART reactor. Specifically, the test examined the natural circulation in the primary loop under a stepwise coolant inventory loss while keeping the core power constant at 5% of the scaled full power. Based on the test results, three flow regimes were observed: single-phase natural circulation (SPNC), two-phase natural circulation (TPNC), and boiler–condenser natural circulation (BCNC). The flow rate remained steady in the SPNC, slightly increased in the TPNC, and dropped abruptly and maintained in the BCNC. Using a natural circulation flow map, the natural circulation characteristic in the SMART–ITL was compared with those in pressurized water reactor simulators. In the SMART–ITL, a BCNC regime appeared instead of siphon condensation and reflux condensation regimes because of the use of once-through steam generators.

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