Experimental and numerical analysis of impingement temperature effect on the sacrificial plate's hole formation during nuclear severe accident

Experimental and numerical analysis of impingement temperature effect on the sacrificial plate's hole formation during nuclear severe accident

Liquid metal breaching onto a metal plate is an important aspect that needs to be considered in the nuclear severe accident analysis. This relates to the downward relocation of molten material to the supporting system such as sacrificial grid plate and lower head while accident happened. The molten...

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Published in:Progress in nuclear energy (New series) Vol. 162; p. 104782
Main Authors: Hidayati, Anni Nuril, Mustari, Asril Pramutadi Andi, Irwanto, Dwi, Waris, Abdul
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-08-2023
Subjects:
Jet impingement
Moving particle semi-implicit
Nuclear accident
Nusselt number
Pool effect
Relocation
Nusselt number
Jet impingement
Pool effect
Relocation
Moving particle semi-implicit
Nuclear accident
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Abstract Liquid metal breaching onto a metal plate is an important aspect that needs to be considered in the nuclear severe accident analysis. This relates to the downward relocation of molten material to the supporting system such as sacrificial grid plate and lower head while accident happened. The molten core material impinged the sacrificial grid plate which was quenched before interacted with reactor pressure vessel. The present study aims to investigate the dynamic behaviors of holes formation due to liquid metal jet impingement onto a metal plate at initial temperatures 423 K, 473 K, and 523 K. The experiments and numerical simulation were performed with molten Wood's Metal and 5 mm thickness of Lead Bismuth Eutectic plates. The modified Moving Particle Semi-Implicit method was used to perform the numerical calculation based on the particle movement. The results showed that the plate was locally melted by the heat supplied from the liquid metal jet and induced the penetration. A larger amount of liquid metal stayed, then liquid metal pool was formed when the liquid temperature jet was lower. The temperature variation resulted unsignificant change of hole size diameter on both surfaces. The formed hole sizes in the plate's top and bottom surfaces were around 5.7–14 mm and 3.7−5 mm, respectively. The required time for the liquid metal penetration was shorter when the liquid metal temperature was higher. The increase of conduction heat transfer during the solidification of liquid metal could decrease the Nusselt number at the stagnation zone. The findings show that the experiment and numerical results can predict the sacrificial grid plate's hole formation and dynamic mechanism within critical time of molten core material impingement. •The simulation results of bottom surface hole diameters were successfully validated by the experimental results.•The jet initial temperature variations gave similar hole size yet different pool effect on the stagnation zone.•The higher jet initial temperature promoted sharper decrement of Nusselt number on the stagnation zone.
AbstractList Liquid metal breaching onto a metal plate is an important aspect that needs to be considered in the nuclear severe accident analysis. This relates to the downward relocation of molten material to the supporting system such as sacrificial grid plate and lower head while accident happened. The molten core material impinged the sacrificial grid plate which was quenched before interacted with reactor pressure vessel. The present study aims to investigate the dynamic behaviors of holes formation due to liquid metal jet impingement onto a metal plate at initial temperatures 423 K, 473 K, and 523 K. The experiments and numerical simulation were performed with molten Wood's Metal and 5 mm thickness of Lead Bismuth Eutectic plates. The modified Moving Particle Semi-Implicit method was used to perform the numerical calculation based on the particle movement. The results showed that the plate was locally melted by the heat supplied from the liquid metal jet and induced the penetration. A larger amount of liquid metal stayed, then liquid metal pool was formed when the liquid temperature jet was lower. The temperature variation resulted unsignificant change of hole size diameter on both surfaces. The formed hole sizes in the plate's top and bottom surfaces were around 5.7–14 mm and 3.7−5 mm, respectively. The required time for the liquid metal penetration was shorter when the liquid metal temperature was higher. The increase of conduction heat transfer during the solidification of liquid metal could decrease the Nusselt number at the stagnation zone. The findings show that the experiment and numerical results can predict the sacrificial grid plate's hole formation and dynamic mechanism within critical time of molten core material impingement. •The simulation results of bottom surface hole diameters were successfully validated by the experimental results.•The jet initial temperature variations gave similar hole size yet different pool effect on the stagnation zone.•The higher jet initial temperature promoted sharper decrement of Nusselt number on the stagnation zone.
ArticleNumber 104782
Author Mustari, Asril Pramutadi Andi
Irwanto, Dwi
Waris, Abdul
Hidayati, Anni Nuril
Author_xml – sequence: 1
  givenname: Anni Nuril
  orcidid: 0000-0002-8278-0375
  surname: Hidayati
  fullname: Hidayati, Anni Nuril
  organization: Physics Department, Faculty of Mathematics and Natural Science, Institut Teknologi Bandung, Jalan Ganesha 10, Bandung, 40132, Indonesia
– sequence: 2
  givenname: Asril Pramutadi Andi
  surname: Mustari
  fullname: Mustari, Asril Pramutadi Andi
  organization: Nuclear Physics and Biophysics Research Division, Physics Department, Faculty of Mathematics and Natural Science, Institut Teknologi Bandung, Jalan Ganesha 10, Bandung, 40132, Indonesia
– sequence: 3
  givenname: Dwi
  surname: Irwanto
  fullname: Irwanto, Dwi
  organization: Nuclear Physics and Biophysics Research Division, Physics Department, Faculty of Mathematics and Natural Science, Institut Teknologi Bandung, Jalan Ganesha 10, Bandung, 40132, Indonesia
– sequence: 4
  givenname: Abdul
  surname: Waris
  fullname: Waris, Abdul
  email: awaris@itb.ac.id
  organization: Nuclear Physics and Biophysics Research Division, Physics Department, Faculty of Mathematics and Natural Science, Institut Teknologi Bandung, Jalan Ganesha 10, Bandung, 40132, Indonesia
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Keywords Nusselt number
Jet impingement
Pool effect
Relocation
Moving particle semi-implicit
Nuclear accident
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Snippet Liquid metal breaching onto a metal plate is an important aspect that needs to be considered in the nuclear severe accident analysis. This relates to the...
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StartPage 104782
SubjectTerms Jet impingement
Moving particle semi-implicit
Nuclear accident
Nusselt number
Pool effect
Relocation
Title Experimental and numerical analysis of impingement temperature effect on the sacrificial plate's hole formation during nuclear severe accident
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