Numerical study of depressurization rate during blowdown based on lumped model analysis.
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概要
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To study the thermodynamic aspects of blowdown, the depressurization rate equation has been numerically solved. The equation, derived from macroscopic mass and energy balances in the pressure vessel, consisted of the energy and volumetric discharges terms multiplied by the decrease rate of residual coolant. By applying a dimensional analysis, dimensionless equations were obtained together with dimensionless parameters of blowdown. Blowdown calculations starting at typical BWR operating conditions indicated that the de-crease rate of coolant increased for the liquid and two-phase mixture, and decreased for the vapor discharge. Further, the energy discharge term made a larger contribution to the depressurization rate in the case of vapor escape, while the volumetric discharge term did so in the case of liquid and two-phase mixture escape blowdowns. In the lumped model analyses, the averaged specific enthalpy and entropy of the residual coolant increased for the liquid discharge, remained almost constant for the two-phase mixture discharge, and decreased for the vapor discharge blowdown.
- 一般社団法人 日本原子力学会の論文
著者
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IKEDA Takashi
Energy Research Laboratory, Hitachi Ltd.
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SUMIDA Isao
Energy Research Laboratory, Hitachi Ltd.
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YAMANOUCHI Atsuo
Energy Research Laboratory, Hitachi Ltd.
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