船舶
船舶
선박
SHIP & BOAT
2015年
2期
42-45,51
,共5页
子结构%快速多极子边界元法%迭代收敛%消声器
子結構%快速多極子邊界元法%迭代收斂%消聲器
자결구%쾌속다겁자변계원법%질대수렴%소성기
substructure%FMBEM%iterative convergence%silencer
将子结构技术应用到快速多极子边界元法中,形成子结构快速多极子边界元法。通过复杂结构声场计算,对该方法的迭代计算收敛情况以及影响收敛的因素进行研究分析。经研究发现,应用Fortran语言编程求解问题时,矩阵方程构建方式,交界面的规模以及是否填充吸声材料对迭代法的收敛速度有着重要影响。最后,以应用子结构快速多极子边界元法与传统边界元法计算消声器传递损失为例,对该方法的准确性和精度进行验证。
將子結構技術應用到快速多極子邊界元法中,形成子結構快速多極子邊界元法。通過複雜結構聲場計算,對該方法的迭代計算收斂情況以及影響收斂的因素進行研究分析。經研究髮現,應用Fortran語言編程求解問題時,矩陣方程構建方式,交界麵的規模以及是否填充吸聲材料對迭代法的收斂速度有著重要影響。最後,以應用子結構快速多極子邊界元法與傳統邊界元法計算消聲器傳遞損失為例,對該方法的準確性和精度進行驗證。
장자결구기술응용도쾌속다겁자변계원법중,형성자결구쾌속다겁자변계원법。통과복잡결구성장계산,대해방법적질대계산수렴정황이급영향수렴적인소진행연구분석。경연구발현,응용Fortran어언편정구해문제시,구진방정구건방식,교계면적규모이급시부전충흡성재료대질대법적수렴속도유착중요영향。최후,이응용자결구쾌속다겁자변계원법여전통변계원법계산소성기전체손실위례,대해방법적준학성화정도진행험증。
Substructure FMBEM is developed by the application of substructure technique into Fast Multipole Boundary Element Method (FMBEM). It carries out the investigation and analysis of its iterative convergence situation and the inlfuence factors by complex structure acoustic ifeld calculation. It is found that the building of matrix equation, scale of interface and filling of the sound-absorbing material have significant influence on convergence speed when the problem is solved by the programs with FORTRAN language. Finally, the transmission loss of a silencer is calculated by the substructure FMBEM with comparison with conventional BEM in order to conifrm its correctness and accuracy.
