Application of 1 D Finite Element Method in Combination with Laminar Solution Method for Pipe Network Analysis
[摘要] The features of application of the 1D dimensional finite element method (FEM) in combination with the laminar solutions method (LSM) for the calculation of underground ventilating networks are considered. In this case the processes of heat and mass transfer change the properties of a fluid (binary vapour-air mix). Under the action of gravitational forces it leads to such phenomena as natural draft, local circulation, etc. The FEM relations considering the action of gravity, the mass conservation law, the dependence of vapour-air mix properties on the thermodynamic parameters are derived so that it allows one to model the mentioned phenomena. The analogy of the elastic and plastic rod deformation processes to the processes of laminar and turbulent flow in a pipe is described. Owing to this analogy, the guaranteed convergence of the elastic solutions method for the materials of plastic type means the guaranteed convergence of the LSM for any regime of a turbulent flow in a rough pipe. By means of numerical experiments the convergence rate of the FEM - LSM is investigated. This convergence rate appeared much higher than the convergence rate of the Cross - Andriyashev method. Data of other authors on the convergence rate comparison for the finite element method, the Newton method and the method of gradient are provided. These data allow one to conclude that the FEM in combination with the LSM is one of the most effective methods of calculation of hydraulic and ventilating networks. The FEM - LSM has been used for creation of the research application programme package "MineClimate" allowing to calculate the microclimate parameters in the underground ventilating networks.
[发布日期] [发布机构] Applied Mathematics and Mechanics Faculty, Perm National Research Polytechnic University, Komsomolsky Ave., 29, Perm; 614990, Russia^1;Aerospace Faculty, Perm National Research Polytechnic University, Komsomolsky Ave., 29, Perm; 614990, Russia^2
[效力级别] [学科分类] 土木及结构工程学
[关键词] Guaranteed convergence;Heat and mass transfer;Laminar and turbulent flow;Mass conservation law;Numerical experiments;Pipe network analysis;Research applications;Thermodynamic parameter [时效性]