One of the limiting conditions during operation of a pressurized water reactor (PWR) is cladding integrity in class I (normal operations) or class II (most frequent). Cladding integrity is limited typically by the departure from the nucleate boiling (DNB), which criterion ensures an appropriate core cooling. Adequate heat transfer between the fuel cladding and reactor coolant is achieved by preventing DNB that is avoided if the local heat flux is lower than the critical heat flux (CHF). The DNB is estimated thanks to thermal-hydraulic (TH) design codes, as the VIPRE-W code that predicts the fluid behavior based on the geometry of the problem, the fuel rods and the fluid properties among others. One of the parameters that influences the DNB estimation is the thermal diffusion coefficient (TDC), which depends on the fuel design and is affected by the grid spacing. As a matter of fact, the TDC enters into the DNB calculation for thermal mixing between subchannels and in some special cases like the most primitive fuel designs, as a factor within the DNB correlation. Nevertheless, although the TDC is a variable, the TH design codes used for the DNB prediction consider the TDC as a constant. This investigation is founded on a new numerical program developed to explore the effect of the TDC on the DNB. In addition to this, variables as the effect of the turbulent momentum factor (FTM) and the correlation effect has been explored too. The most direct outcome of this research is the substantial extension of the existing studies of VIPRE-W TH code. The results show that TDC has an effect on the DNB dominated by the radial power distribution. The departure from nucleate boiling ratio (DNBR) increases up to 1.2% when TDC is a variable under normal operation radial shapes. For the design radial distribution, this effect is vanished but observable for values under 0.02 with an exponential increase of the DNBR with respect to the TDC. From this moment on, the energy exchanged between subchannels is negligible due to the flatness shape of the radial enthalpy distribution.
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April 2019
Research-Article
Sensitivity Analysis of the Thermal Diffusion Coefficient Effect on the Departure From Nucleate Boiling Ratio With the VIPRE Code
Rosario Delgado-Tardáguila,
Rosario Delgado-Tardáguila
ENUSA Industrias,
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
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Marisol Corisco,
Marisol Corisco
ENUSA Industrias,
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
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Antonio Espejo,
Antonio Espejo
ENUSA Industrias,
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
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Daniel Navarro,
Daniel Navarro
ENUSA Industrias,
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
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Javier Riverola
Javier Riverola
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Rosario Delgado-Tardáguila
ENUSA Industrias,
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
Marisol Corisco
ENUSA Industrias,
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
Antonio Espejo
ENUSA Industrias,
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
Daniel Navarro
ENUSA Industrias,
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
Avanzadas S.A., c/Santiago Rusiñol, 12,
Madrid, 28040, Spain
Javier Riverola
Manuscript received July 27, 2018; final manuscript received December 18, 2018; published online March 15, 2019. Assoc. Editor: Ignacio Gómez.
ASME J of Nuclear Rad Sci. Apr 2019, 5(2): 020909 (7 pages)
Published Online: March 15, 2019
Article history
Received:
July 27, 2018
Revised:
December 18, 2018
Citation
Delgado-Tardáguila, R., Corisco, M., Espejo, A., Navarro, D., and Riverola, J. (March 15, 2019). "Sensitivity Analysis of the Thermal Diffusion Coefficient Effect on the Departure From Nucleate Boiling Ratio With the VIPRE Code." ASME. ASME J of Nuclear Rad Sci. April 2019; 5(2): 020909. https://doi.org/10.1115/1.4042358
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