排灌机械工程学报2024,Vol.42Issue(7):701-708,8.DOI:10.3969/j.issn.1674-8530.22.0212
多孔质气体静压径向轴承的可压流动建模及数值求解
Compressible flow modeling and numerical solution for porous aerostatic journal bearings
摘要
Abstract
To investigate the static characteristics of porous aerostatic journal bearings under compres-sible flow,the flow model of porous journal bearings was established based on the Reynolds lubrication equation,Darcy equation for porous material and gas pressure-density equation.A Laplace-Neumann virtual node method was introduced to address the axial end face pressure boundary conditions of porous journal bearings.This method was coupled with the finite difference method,relaxation iterative method,and pressure-density coupling iterative method for the numerical solution of the flow model.The effects of radius clearance and supply pressure on the static characteristics under compressible flow were examined and compared with the outcomes derived from incompressible flow computations.The results indicate that,at a consistent minimum film thickness,the load capacity,mass flow rate,and power consumption for both compressible and incompressible flows exhibit an augmentation with the in-creasing values of radius clearance and supply pressure.Under compressible flow,the load capacity at radius clearance of 0.01 mm and 0.03 mm is less than incompressible flow,and at radius clearance of 0.05 mm is greater than incompressible flow.While the mass flow rate and power consumption under compressible flow are greater than those under incompressible flow.This study could provide a reference for the design and fast calculation of porous journal bearings.关键词
多孔质径向轴承/流动建模/数值求解/半径间隙/供给压力Key words
porous journal bearing/flow model/numerical solution/radius clearance/supply pressure分类
农业科技引用本文复制引用
顾延东,杨安龙,程金武,谢超杰,孙浩,成立..多孔质气体静压径向轴承的可压流动建模及数值求解[J].排灌机械工程学报,2024,42(7):701-708,8.基金项目
国家自然科学基金资助项目(52206055) (52206055)
江苏省博士后科研资助计划项目(2021K569C) (2021K569C)
扬州市科技计划项目-国际科技合作项目(YZ202204) (YZ202204)
