A gradually implicit method with deferred correction and adaptive relaxation factors for simulation to nonlinear heat transfer
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摘要
A gradually implicit method with deferred correction (GIMDC) and adaptive relaxation factors (ARFs) is developed for simulation to nonlinear heat transfer with temperature-dependent properties. GIMDC is equivalent to explicit method initially and approaches implicit method gradually. The theoretical analyses of convergence, error and stability indicate that the accuracy and stability of GIMDC are close to implicit method if ARFs are utilized to guarantee convergence. A strict condition for ARFs is derived. GIMDC is compared with PEM (pure explicit method), NIM (Newton iterative method for implicit solution) and FEM (finite element method) which shows that GIMDC is of acceptable numerical accuracy (similar to NIM and 19.28% and 12.89% higher than PEM and FEM respectively in average) and higher efficiency. The numerical tests are presented which shows that using optimized ARFs (confined by strict condition), efficiency, accuracy and stability are ensured.
论文关键词:Nonlinear heat transfer,Temperature-dependent properties,Gradually implicit method,Deferred correction,Adaptive relaxation factors,Error and stability analyses
论文评审过程:Received 8 January 2020, Revised 28 April 2020, Accepted 17 May 2020, Available online 15 June 2020, Version of Record 15 June 2020.
论文官网地址:https://doi.org/10.1016/j.amc.2020.125386