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Lubrication Analysis of a Mechanical Seal Considering the Mixed Lubricant State of Gas and Liquid During External Power Shutdown of a Reactor Cooling Pumpopen access

Authors
Park, YoungjunHong, GwangheeJun, SanghyunChoi, JeongmookKim, TaegyuKang, MinsooJang, Gunhee
Issue Date
Dec-2024
Publisher
MDPI AG
Keywords
external power shutdown; gas–liquid flow; mechanical seal; numerical analysis; two-phase flow
Citation
Lubricants, v.12, no.12, pp 1 - 15
Pages
15
Indexed
SCIE
SCOPUS
Journal Title
Lubricants
Volume
12
Number
12
Start Page
1
End Page
15
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/206226
DOI
10.3390/lubricants12120406
ISSN
2075-4442
2075-4442
Abstract
We proposed a method to calculate the pressure, opening force, and leakage rate in a mechanical seal under the mixed lubricant state of a gas and liquid for the mechanical seal in a reactor cooling pump (RCP) during external power loss. We calculated the pressure by solving the nonlinear finite element equation composed of the linear Reynolds equation of an incompressible liquid lubricant and the nonlinear Reynolds equation of a compressible gas lubricant using the Newton–Raphson method. In addition, we calculated the temperature distribution by solving the two-dimensional energy equation utilizing the finite element method. Additionally, we included the turbulence effect in the incompressible liquid lubricant and the turbulence and slip effects in the compressible gas lubricant. The accuracy of the developed program was validated by comparing the simulated opening force and leakage rate of both the mechanical seal with the liquid lubricant and the mechanical seal with the gas lubricant with prior research. Our analysis shows that in high-temperature environments, the increase in the gas region at the lubrication surface leads to a decrease in pressure and opening force and an increase in the leakage rate. Conversely, as the outer pressure increases, the gas region decreases, resulting in an increase in pressure, opening force, and leakage rate.
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