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http://dx.doi.org/10.1016/j.net.2021.12.031

An investigation into the thermo-elasto-hydrodynamic effect of notched mechanical seals  

Meng, Xiangkai (Institute of Process Equipment and Control Engineering, Zhejiang University of Technology)
Qiu, Yujie (Institute of Process Equipment and Control Engineering, Zhejiang University of Technology)
Ma, Yi (Institute of Process Equipment and Control Engineering, Zhejiang University of Technology)
Peng, Xudong (Institute of Process Equipment and Control Engineering, Zhejiang University of Technology)
Publication Information
Nuclear Engineering and Technology / v.54, no.6, 2022 , pp. 2173-2187 More about this Journal
Abstract
A 3D thermo-elasto-hydrodynamic model is developed to analyze the sealing performance of a notched mechanical seal applied in the reactor coolant pump. In the model, the generalized Reynolds equation, the energy equation coupled with notch heat balance equation, the heat conduction equations, and the deformation equations of the sealing rings are iteratively solved by the finite element method. The film pressure and temperature distribution are obtained, and the deformation of the sealing rings is revealed to study the mechanism of the notched mechanical seals. A parameterized study is conducted to analyze the sealing performance under different operating conditions. As a comparison, the sealing performance of non-notched seals is also studied. The results show that the hydrostatic effect is dominant in the load-carrying capacity of the fluid film due to the radial mechanical and thermal deformations. The notch can cool the fluid film and influence the thermal deformation of seal rings. The sealing performance is sensitive to the pressure difference, ambient temperature, and rotational speed. It is suggested to set the notches on the softer sealing rings to acquire the greater hydrodynamic effect. Compared with the non-notched, the notched end face holds a better lubrication performance, especially under lower rotational speed.
Keywords
Thermo-elasto-hydrodynamic (TEHD); Notched mechanical seals; Seal performance; Finite element method;
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