Robles-Nieves, Victor
Loading...
1 results
Publication Search Results
Now showing 1 - 1 of 1
Publication Static and dynamic analysis of a piping system(2004-12) Robles-Nieves, Victor; Jia, Yi; College of Engineering; Shafiq, Basir; Just, Frederick; Department of Mechanical Engineering; Uwakweh, OswaldAn Investigation of flow-induced vibration is presented in this thesis. Three finite elements models for the pipe system were developed: a structural finite element analysis model with multi-support system for frequency analysis, a fluidstructure interaction (FSI) finite element model and a transient flow model for waterhammer induced vibration analysis in a fluid filled pipe. The natural frequencies, static, dynamic and thermal stresses, and the limitation of the pipeline system were investigated. The investigation demonstrates that a gap in a support at the segment k has a negative effect on the entire piping system. It was determinated that the first natural frequency of the whole system occurs at 2.07 Hz, and the second at a frequency of 5.65 Hz. Resonance vibration for the first mode shape was found at a flow rate of 40 lbm/s, and resonance vibration for the second mode shape occurs at a flow rate of 275lbm/s. In the warterhammer analysis, the limit maximum flow rates were determinated based on the rate of a rapid closure of the isolation valve. A study of the fluid transient in a simple pipeline was performed. Results obtained from FE model for fluid-structure interaction was compared with a model without considering fluid-structure interaction effects. The results show notable differences in the velocities profile and deformation due to the fluid-structure interaction effects.