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Influence of Spin Softening on Natural Frequencies of a Steam Turbine Rotor Assembly with Interference-Fit


Affiliations
1 Professor, Dept of Mechanical Engg., Bangalore Institute of Technology, Bangalore-560004, India
2 Additional Director, MTD, Central Power Research Institute, Bangalore-560080, India
3 Joint Director, MTD, Central Power Research Institute, Bangalore-560080, India
4 Research Associate, RSOP Project of CPRI (Govt. of India), Bangalore-560004, India
     

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Vibration is the default state of all mechanical systems that causes them to possess a natural frequency. The significance of natural frequency cannot be emphasised enough, considering the fact that its study is essential in averting resonance which causes violent swaying motions and catastrophic failures in improperly constructed structures. In case of rotating structures, the study of natural frequency is incomplete without the understanding of spin softening. This paper presents an ANSYS based analysis to study natural frequency variation due to spin softening, but in a faster and more accurate way than conventional GUI-based ANSYS analysis. The conventional GUI based ANSYS procedure is a laborious time consuming process, with the user having to perform multiple iterations of model analysis involving different rotational velocities to examine the variation of natural frequencies of the system. Through this paper, a novel way has been suggested to bring down the time and effort involved in such a study by using an advanced ANSYS feature called ANSYS Parametric Design Language (APDL). The results obtained have been found to validate spin softening.

Keywords

Finite Element Method, ANSYS Parametric Design Language, Natural Frequency, Spin Softening, Vibrations, Nelson Rotor.
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  • Influence of Spin Softening on Natural Frequencies of a Steam Turbine Rotor Assembly with Interference-Fit

Abstract Views: 254  |  PDF Views: 0

Authors

B. Gurudatt
Professor, Dept of Mechanical Engg., Bangalore Institute of Technology, Bangalore-560004, India
S. Seetharamu
Additional Director, MTD, Central Power Research Institute, Bangalore-560080, India
P. Sampathkumaran
Joint Director, MTD, Central Power Research Institute, Bangalore-560080, India
Vikram Krishna
Research Associate, RSOP Project of CPRI (Govt. of India), Bangalore-560004, India

Abstract


Vibration is the default state of all mechanical systems that causes them to possess a natural frequency. The significance of natural frequency cannot be emphasised enough, considering the fact that its study is essential in averting resonance which causes violent swaying motions and catastrophic failures in improperly constructed structures. In case of rotating structures, the study of natural frequency is incomplete without the understanding of spin softening. This paper presents an ANSYS based analysis to study natural frequency variation due to spin softening, but in a faster and more accurate way than conventional GUI-based ANSYS analysis. The conventional GUI based ANSYS procedure is a laborious time consuming process, with the user having to perform multiple iterations of model analysis involving different rotational velocities to examine the variation of natural frequencies of the system. Through this paper, a novel way has been suggested to bring down the time and effort involved in such a study by using an advanced ANSYS feature called ANSYS Parametric Design Language (APDL). The results obtained have been found to validate spin softening.

Keywords


Finite Element Method, ANSYS Parametric Design Language, Natural Frequency, Spin Softening, Vibrations, Nelson Rotor.



DOI: https://doi.org/10.33686/prj.v6i2.189619