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A precision benchmark suite for nuclear reactor point kinetics equations via converged accelerated Taylor series (cats)

Published 17 Jun 2024 in physics.comp-ph | (2406.11822v1)

Abstract: Extreme benchmarks of ten or more places for the point kinetics equations for time dependent nuclear reactor power transients are rare. Therefore, to establish an extreme benchmark, we will employ a Taylor series with continuous analytical continuation (CAC) to solve the ordinary differential equations of point kinetics including feedback. Non-linear Wynn-epsilon convergence acceleration confirms the highly precise solutions for neutron and precursor densities. Through adaptive partitioning of time intervals, the proposed Converged Accelerated Taylor Series, or CATS algorithm [1] in double precision, automatically performs successive mesh refinement to obtain high precision initial conditions for each sub-interval, with the intent to reduce propagation error. Confirmation of ten to twelve places comes from comparison to the BEFD (Backward Euler Finite Difference) algorithm [2] in quadruple precision also developed by the author. We report benchmark results for common cases found in the literature including step, ramp, zigzag and sinusoidal prescribed reactivity insertions and insertions with non-linear adiabatic Doppler feedback. We also establish a suite of new prescribed reactivity insertions and insertions with feedback, based on reactivities with Taylor series as suggested by the CATS algorithm.

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