Litcius/Paper detail

An equilibrium core depletion algorithm for pebble-bed reactors in the Griffin code

Sebastian Schunert, Javier Ortensi, Yaqi Wang, Paolo Balestra, Mustafa Jaradat, Olin Calvin, Joshua Hanophy, Logan Harbour

2023Annals of Nuclear Energy20 citationsDOIOpen Access PDF

Abstract

We present a novel deterministic equilibrium core pebble-bed depletion algorithm. It differs from most other algorithms by distinguishing pebble age directly by burnup instead of using the number of completed passes through the core. Using burnup allows for a more physically realistic modeling of the pebble discharge process, especially for low pass cores. The major innovation of this algorithm is to define pebble fractions and number densities as a distribution over both space and burnup and then define an evolution operator for these quantities. The algorithm is implemented in the Multiphysics Object-Oriented Simulation Environment based reactor physics code Griffin. Numerical results show good agreement (eigenvalue to within 150 pcm, power peaking factor to within 0.2%) for the HTR-PM when compared to published Very Superior Old Programs (VSOP) results.

Topics & Concepts

PebbleBurnupNuclear engineeringMultiphysicsAlgorithmCore (optical fiber)Computer scienceCode (set theory)MechanicsPhysicsGeologyThermodynamicsEngineeringProgramming languageFinite element methodTelecommunicationsSet (abstract data type)GeomorphologyNuclear reactor physics and engineeringGroundwater flow and contamination studiesReservoir Engineering and Simulation Methods