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Modelling of a passive autocatalytic hydrogen recombiner – a parametric study

100%
Rożeń A.
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issue 1
161-169
EN
Operation of a passive autocatalytic hydrogen recombiner (PAR) has been investigated by means of computational fluid dynamics methods (CFD). The recombiner is a self-active and self-adaptive device used to remove hydrogen from safety containments of light water nuclear reactors (LWR) by means of a highly exothermic reaction with oxygen at the surface of a platinum or palladium catalyst. Different turbulence models (k-ω, k-ɛ, intermittency, RSM) were applied in numerical simulations of: gas flow, heat and mass transport and chemical surface reactions occurring in PAR. Turbulence was found to improve mixing and mass transfer and increase hydrogen recombination rate for high gas flow rates. At low gas flow rates, simulation results converged to those obtained for the limiting case of laminar flow. The large eddy simulation technique (LES) was used to select the best RANS (Reynolds average stress) model. Comparison of simulation results obtained for two- and three-dimensional computational grids showed that heat and mass transfer occurring in PAR were virtually two-dimensional processes. The effect of hydrogen thermal diffusion was also discussed in the context of possible hydrogen ignition inside the recombiner.
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Design and Numerical Simulation of the Performance of Acoustic Plenum Chamber of a Marine Gas Turbine Air Supply System

86%
Rasoulimoghadam M., Kheradmand S., Rasoulimoghadam M., Kheradmand S.
Archives of Acoustics
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2019
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vol. 44
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issue 4
3
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Hybrid Artificial Boundary Conditions for the Application of Blunt-Body Aerodynamic Noise Prediction

86%
Ma R., Liu Z., Dooloan C. J., Moreau D. J., Czarnecki M., Ma R., Liu Z., Dooloan C. J., Moreau D. J., Czarnecki M.
Archives of Acoustics
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2019
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vol. 44
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issue 1
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