Book ChapterDOI
Forward and Backward Whirling of a Rotor with Gyroscopic Effect
Ali Fellah Jahromi,Rama B. Bhat,Wen-Fang Xie +2 more
- pp 879-887
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TLDR
In this article, it is shown that the backward whirl can be observed when the rotor is coasting down to rest from above the critical speed corresponding to the backward Whirl.Abstract:
The determination of whirling frequencies of high speed turbines is always challenging in rotor dynamics. The natural frequencies of a Jeffcott rotor are split in the presence of gyroscopic effect. It is quite well known that the lower branch corresponds to the backward whirl and the upper branch corresponds to forward whirl. The forward whirl mode of the rotor has been observed experimentally, however, the backward whirl has not been observed. In this study it is shown that the backward whirl can be observed when the rotor is coasting down to rest from above the critical speed corresponding to the backward whirl. In order to illustrate the forward and the backward critical speeds of a simple Jeffcott rotor, the natural frequencies are obtained analytically for the second natural frequency of the system because of the large gyroscopic effect present in that mode. An experimental set up was used to verify the presence of backward whirl while the rotor is coasting down to rest. The rotor is also simulated using finite element method by ANSYS, and Campbell diagram is plotted. The analytical, experimental and ANSYS simulations confirm the existence of the backward whirl when the rotor is coasting down.read more
Citations
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Journal ArticleDOI
Investigation of vibration characteristics of a Jeffcott rotor system under the influence of nonlinear restoring force, hydrodynamic effect, and gyroscopic effect
Book ChapterDOI
Strategic Quality Management of Aero Gas Turbine Engines, Applying Functional Resonance Analysis Method
TL;DR: The FRAM methodology helped in completely obviating the failures by various remedial measures, like removal of the unbalance, micro-shot peening of the shear neck, and damping of backward whirl using bearing liner bushes and enhancing stiffness by increasing the sheer neck diameter to shift the backwardWhirl beyond the operating range of the aero-engine.
Book ChapterDOI
Quality-Reliability-Risk-Safety Paradigm—Analyzing Fatigue Failure of Aeronautical Components in Light of System Safety Principles
TL;DR: In this article, the authors present case studies related to fatigue failure of aero-engine and aircraft components, analyzing the progression of failure in light of the system safety principles, originally proposed by Joseph H. Saleh, are high-level, domain independent and technologically agnostic principles built on the notion of level of safety hazard and its escalation to accident sequence.
Journal ArticleDOI
Rotor speed control strategy to avoid resonance frequencies of turbo-molecular pump
Hsin Lin Chiu,Nan-Chyuan Tsai +1 more
TL;DR: By intensive computer simulations, the RDPS indeed manifests its outstanding performance to efficiently skip or bypass the natural frequencies of the closed-loop system within a very short time period and guarantee the system stability.
Book ChapterDOI
A Study on Reliability of Rotors Using XLrotor
TL;DR: The work is focused on computation of rotating machines in XLrotor in order to predict the failure due to disk offset and to check reliability and theXLrotor computational tool is considered optimum in incorporating the effect of mass, stiffness, inertia and imbalance effectively.
References
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Book
Vibration analysis of rotors
TL;DR: In this paper, the authors present a model of a simple rotor bearing system with fluid film bearing and show that it is a distributed Parameter Rotor-Bearing System.
Journal ArticleDOI
Detection and monitoring of crack in a coast-down rotor supported on fluid film bearings
TL;DR: In this paper, the authors used the continuous wavelet transform (CWT) to extract sub-harmonics from the time domain signals of a rotor system coasting down through its critical speed.
Journal ArticleDOI
Conditions for backward synchronous whirl of a flexible rotor in hydrodynamic bearings
J. S. Rao,J. S. Rao,J. S. Rao +2 more
TL;DR: In this article, the dynamic unbalance response of a single mass Jeffcott rotor in hydrodynamic bearings is analyzed and cross-coupled spring coefficients are considered in the analysis and damping has been neglected.
Journal ArticleDOI
Conditions for backward whirling motion of a flexible rotor supported on hydrodynamic journal bearings
TL;DR: In this paper, the necessary conditions for backward motion of a Jeffcott rotor supported by identical hydrodynamic journal bearings are investigated, and it is shown that backward motion occurs if and only if the load parameter is greater than a limiting value corresponding to the flexibility parameter.