Litcius/Paper detail

A modified JFNK with line search method for solving k-eigenvalue neutronics problems with thermal-hydraulics feedback

Lixun Liu, Zhang Han, Yingjie Wu, Baokun Liu, Jiong Guo, Fu Li

2022Nuclear Engineering and Technology12 citationsDOIOpen Access PDF

Abstract

The k-eigenvalue neutronics/thermal-hydraulics coupling calculation is a key issue for reactor design and analysis. Jacobian-free Newton-Krylov (JFNK) method, featured with super-linear convergence rate and high efficiency, has been attracting more and more attention to solve the multi-physics coupling problem. However, it may converge to the high-order eigenmode because of the multiple solutions nature of the k-eigenvalue form of multi-physics coupling issue. Based on our previous work, a modified JFNK with a line search method is proposed in this work, which can find the fundamental eigenmode together with thermal-hydraulics feedback in a wide range of initial values. In detail, the existing modified JFNK method is combined with the line search strategy, so that the intermediate iterative solution can avoid a sudden divergence and be adjusted into a convergence basin smoothly. Two simplified 2-D homogeneous reactor models, a PWR model, and an HTR model, are utilized to evaluate the performance of the newly proposed JFNK method. The results show that the performance of this proposed JFNK is more robust than the existing JFNK-based methods.

Topics & Concepts

Eigenvalues and eigenvectorsNeutron transportConvergence (economics)Coupling (piping)Applied mathematicsMathematical optimizationComputer scienceMechanicsPhysicsEngineeringMathematicsMechanical engineeringNuclear physicsEconomic growthQuantum mechanicsEconomicsNeutronNuclear reactor physics and engineeringMatrix Theory and AlgorithmsModel Reduction and Neural Networks