Comparative Study on the Leakage Characteristics and Parameter Influence of Bio-Inspired Fishway Staggered Labyrinth Seals

Comparative Study on the Leakage Characteristics and Parameter Influence of Bio-Inspired Fishway Staggered Labyrinth Seals

Innovating seal structures and optimizing size parameters are effective ways to enhance the leakage characteristics of labyrinth seals (LSs). Inspired by the ecological fishways with high flow resistance on dam sides, a novel bio-inspired staggered labyrinth seal is proposed. The leakage characteris...

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Bibliographic Details
Main Authors: Zhentao Yu, Jinbo Jiang, Xuan Zhang, Mengli Zhang, Canlong Li
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Lubricants
Subjects:
staggered labyrinth seals
leakage characteristics
ecological fishway
jet contraction effect
Online Access:https://www.mdpi.com/2075-4442/13/3/95
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Summary:Innovating seal structures and optimizing size parameters are effective ways to enhance the leakage characteristics of labyrinth seals (LSs). Inspired by the ecological fishways with high flow resistance on dam sides, a novel bio-inspired staggered labyrinth seal is proposed. The leakage characteristics of both the curved-edged bio-inspired labyrinth seal (CELS) and the straight-edged bio-inspired labyrinth seal (SELS) at different tooth-incline angles are studied numerically and experimentally. The influence of key geometrical parameters on the leakage characteristics and flow field parameters of the CELSs are investigated, and the leakage control mechanism of bio-inspired LSs is revealed via analyzing flow field parameter distribution. The results indicate that, compared to conventional double-sided staggered straight-tooth labyrinth seals, the leakage rate reduction in CELSs is up to 30% when the incline angle is equal to 25°, outperforming that of the SELS in leakage control. This improvement is mainly attributed to the flow path bending and jet contraction effects at the tooth-tip entrance, along with the thermodynamic effects of the high-turbulence dissipation zone adjacent to the tooth top. The optimum leakage characteristics can be achieved when seal clearance <i>h</i> < 0.5 mm, aspect ratio <i>δ</i> < 0.6, and tooth thickness <i>t</i> < 1.5 mm. This work provides new insights into the structural design of high-resistance and low-leakage labyrinth seals.
ISSN:2075-4442

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