Paper Title

Hydrodynamics and heat transfer characteristics of passive decay heat removal systems: CFD simulations and experimental measurements

Authors

Profile picture of Aniruddha Bhalchandra Pandit
Aniruddha Bhalchandra Pandit
Profile picture of Arijit Ganguli
Arijit Ganguli

Keywords

  • Passive Decay Heat Removal
  • Nuclear Safety
  • Heat Transfer
  • CFD Simulations
  • Pool Boiling
  • Thermal Stratification
  • Particle Image Velocimetry
  • Hot Film Anemometry
  • Condensing Heat Transfer
  • Hydrodynamic Analysis
  • Stratification Number
  • Boiling Model
  • Lift Force
  • Condenser Submergence
  • Experimental Validation
  • Large-Scale Modeling
  • Thermal Decay Management
  • Nuclear Reactor Cooling
  • Passive Cooling Systems
  • Computational Fluid Dynamics
  • Heat Transfer Enhancement
  • Boiling Dynamics
  • Thermal Hydraulics
  • Reactor Safety Engineering

Journal

Chemical Engineering Science External link

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DOI

DOI Icon 10.1016/j.ces.2010.02.031

Publication Info

Volume: 65 | Issue: 11 | Pages: 3457-3473

Published On

June, 2010

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Abstract

In nuclear safety operations, condensing heat transfer area is placed in a large pool of liquid to accommodate passive thermal decay. Such systems are subject to pool boiling and thermal stratification. Velocity and temperature measurements were carried out in a 300 mm i.d. vessel with a central tube as the heat transfer area. For this purpose, particle image velocimetry (PIV) and hot film anemometry (HFA) were employed. Further, CFD simulations of this system were performed. An excellent agreement was found between the experimental measurements and the CFD simulations. For modeling, the boiling was an extension of the model of Krepper et al. (2007). The lift force was described according to the recommendations of Zeng et al. (1993). The stratification occurring inside the pool has been quantified in terms of a dimensionless number (stratification number). It has been observed that, for higher heat input rates stratification occurs in a shorter time period. The effect of submergence of the condenser tube in the large pool has been studied and it has been found that, for any height of submergence, vapors form at the top of the pool but placing the condenser near the bottom may reduce stratification to a certain extent. The model was extended to the real size (50 000 mm I.D.) passive decay heat removal system.

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