Simulation and Experimental Investigation of a New Type of Combined Seal Structure

IF 1.8 3区 工程技术 Q3 ENGINEERING, MECHANICAL
Jin Li, Xiaoli Fu, Shenglin Yan
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引用次数: 2

Abstract

Based on the study of leakage characteristics of labyrinth seal structure (LSS), a new type of combined seal structure (CSS) consisting of the labyrinth structure and the nozzle structure has been proposed. The sealing characteristics of CSS and LSS are compared by means of numerical simulation and experiments, and the effects of the internal resistance of the device, structural geometric parameters and other factors on the leakage characteristics of CSS are studied. The results illustrate the following conclusions: (a) When the inlet flow is 12 m3/h and the internal resistance of the device is 2000–4000 Pa, the leakage rate of CSS decreases by 30%–40% in comparison with that of LSS, which indicates that the performance of CSS is much better than that of LSS. (b) The leakage rate increases as the internal resistance of the device increases. When the internal resistance of the device increases from 2000 Pa to 8000 Pa, the leakage rate increases from 26% to 72%. (c) When the internal resistance of the device is constant, the larger the inlet flow, the smaller the leakage rate. (d) The choice of nozzle radius in structural geometric parameters is more important for the leakage rate than the tooth height and teeth numbers. When the nozzle radius decreases, ΔPAB (pressure difference between the labyrinth structure and the nozzle structure) and the leakage rate decrease accordingly.
一种新型组合密封结构的仿真与实验研究
在研究迷宫式密封结构(LSS)泄漏特性的基础上,提出了一种由迷宫式结构和喷嘴式结构组成的新型组合式密封结构(CSS)。通过数值模拟和实验对比了CSS和LSS的密封特性,研究了装置内阻、结构几何参数等因素对CSS泄漏特性的影响。结果表明:(a)进口流量为12 m3/h,装置内阻为2000 ~ 4000 Pa时,CSS的泄漏率比LSS降低30% ~ 40%,表明CSS的性能明显优于LSS。(b)泄漏率随着器件内阻的增大而增大。当器件内阻由2000pa增加到8000pa时,漏电率由26%增加到72%。(c)当装置内阻一定时,进口流量越大,泄漏率越小。(d)结构几何参数中喷嘴半径的选择比齿高和齿数对泄漏率的影响更大。当喷嘴半径减小时,迷宫结构与喷嘴结构的压力差ΔPAB和泄漏率相应减小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.60
自引率
10.00%
发文量
165
审稿时长
5.0 months
期刊介绍: Multiphase flows; Pumps; Aerodynamics; Boundary layers; Bubbly flows; Cavitation; Compressible flows; Convective heat/mass transfer as it is affected by fluid flow; Duct and pipe flows; Free shear layers; Flows in biological systems; Fluid-structure interaction; Fluid transients and wave motion; Jets; Naval hydrodynamics; Sprays; Stability and transition; Turbulence wakes microfluidics and other fundamental/applied fluid mechanical phenomena and processes
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