{"title":"Dynamic Performance of Liquid Smooth Annular Seal Operating in the Transition Regime","authors":"Seung-Hyeop Hyun, Adolfo Delgado","doi":"10.1115/1.4064805","DOIUrl":null,"url":null,"abstract":"\n This paper presents the experimental leakage and rotordynamic performance for a liquid smooth annular seal operating in the transition regime. The test conditions include pressure differentials up to 64 bars with 1~2 bar increments for 6 rotor speeds (2.5, 3.8, 5, 7.5, 8.8, and 10 krpm), as well as non-rotating rotor case under zero pre-swirl condition. The rotordynamic coefficients for all the test conditions are obtained by pseudo-random excitation of the seal at multiple subsynchronous frequencies. By considering the transition Reynolds number (1000 < Re < 3000) and the Taylor Number (Ta) vs Axial Reynolds Number (Rez), the variations in the direct stiffness coefficients (K) can used as an indicator of the flow regime transition boundaries. The direct stiffness K resulting from the Lomakin and hydrodynamic effects significantly drops until Rez reaches ~1500. For higher Rez, K increases mainly due to hydrodynamic effects. When K drops, the cross-coupled stiffness k, the direct damping C and the cross-coupled virtual mass m increase while the cross-coupled damping c and virtual mass M decrease. None of predictions based on either laminar or turbulent flow show the variations in rotordynamic coefficients obtained from experimental results. The leakage is not highly influenced by rotor speeds for low speed cases crossing laminar boundary as ?P increases, however, results for higher speeds in the superlaminar region show reduced leakage rates as rotor speed increases.","PeriodicalId":508252,"journal":{"name":"Journal of Engineering for Gas Turbines and Power","volume":"77 5","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-02-21","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Engineering for Gas Turbines and Power","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1115/1.4064805","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
This paper presents the experimental leakage and rotordynamic performance for a liquid smooth annular seal operating in the transition regime. The test conditions include pressure differentials up to 64 bars with 1~2 bar increments for 6 rotor speeds (2.5, 3.8, 5, 7.5, 8.8, and 10 krpm), as well as non-rotating rotor case under zero pre-swirl condition. The rotordynamic coefficients for all the test conditions are obtained by pseudo-random excitation of the seal at multiple subsynchronous frequencies. By considering the transition Reynolds number (1000 < Re < 3000) and the Taylor Number (Ta) vs Axial Reynolds Number (Rez), the variations in the direct stiffness coefficients (K) can used as an indicator of the flow regime transition boundaries. The direct stiffness K resulting from the Lomakin and hydrodynamic effects significantly drops until Rez reaches ~1500. For higher Rez, K increases mainly due to hydrodynamic effects. When K drops, the cross-coupled stiffness k, the direct damping C and the cross-coupled virtual mass m increase while the cross-coupled damping c and virtual mass M decrease. None of predictions based on either laminar or turbulent flow show the variations in rotordynamic coefficients obtained from experimental results. The leakage is not highly influenced by rotor speeds for low speed cases crossing laminar boundary as ?P increases, however, results for higher speeds in the superlaminar region show reduced leakage rates as rotor speed increases.
本文介绍了液体光滑环形密封在过渡状态下的试验泄漏和旋转动力性能。试验条件包括 6 种转子速度(2.5、3.8、5、7.5、8.8 和 10 krpm)下最高 64 巴的压差(增量为 1~2 巴),以及零预旋流条件下的非旋转转子情况。所有测试条件下的旋转动力系数都是通过在多个次同步频率下对密封件进行伪随机激励获得的。通过考虑过渡雷诺数(1000 < Re < 3000)和泰勒数(Ta)与轴向雷诺数(Rez)的关系,直接刚度系数(K)的变化可作为流态过渡边界的指标。洛马金效应和流体动力学效应导致的直接刚度 K 在 Rez 达到 ~1500 之前显著下降。Rez 越高,K 越大,这主要是由于流体动力学效应。当 K 下降时,交叉耦合刚度 k、直接阻尼 C 和交叉耦合虚拟质量 m 增加,而交叉耦合阻尼 c 和虚拟质量 M 减少。基于层流或湍流的预测均未显示出实验结果所获得的旋转动力系数的变化。对于穿越层流边界的低速情况,随着 P 的增加,泄漏受转子速度的影响不大,然而,超层流区域的高速结果显示,随着转子速度的增加,泄漏率降低。