Abstract
The exact understanding of the dynamic characteristic of the seal is a crucial parameter for designing the system. This article presents an experiment that estimates the dynamic characteristics of a brush seal under a super-heated steam environment for a steam turbine. The super-heated steam facility makes super-heated steam (523.15 K) to replicate the real steam turbine environment. Two brush seal units are utilized with a housing connected by springs to measure the modal parameters of the system. To extract the brush seal characteristics, the modal parameters of the pure housing were subtracted from the overall dynamic system. Moreover, to predict modal parameters more accurately, the least-squares method and the instrumental variable method were used to reduce the noise caused by the steam. Two major effects were experimentally investigated by varying the operating speed (0–16,900 r/min) of the rotor and the injection flow of super-heated steam. The results showed that the direct stiffness and damping of the brush seal increased significantly when the steam was injected. Under steam exposure, obtaining the modal parameters using instrumental variable method was confirmed to reduce more noise than obtaining the parameters via least-squares method.
Highlights
A rotating seal is widely used in many rotordynamic applications,[1] for many reasons
The brush seals are designed for zero clearance
Experiments have been conducted to determine the dynamic characteristics of the brush seal applied to a steam turbine
Summary
A rotating seal is widely used in many rotordynamic applications,[1] for many reasons. Keywords Brush seal, dynamic characteristics, rotordynamics, super-heated steam, steam turbine As suggested by Nordmann and Massmann,[17,18] the dynamic characteristics of triboelements have been utilized to analyze a given rotordynamic system.[19,20,21,22,23] In particular, additional stiffness or damping could be the source of destabilizing force, inducing the steam whirl.[4] In addition, thermal instability, such as the Newkirk effect, can appear due to unavoidable frictional heating resulting from contact between the bristles and rotor.
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