Journal of Marine Science and Engineering

18 pages, 4872 KB

Open AccessArticle

Impact of Variability in Blade Manufacturing on Transonic Compressor Rotor Performance

by Qing Yang, Jun Chen, Wenbo Shao and Ruijie Zhao

J. Mar. Sci. Eng. 2025, 13(10), 1907; https://doi.org/10.3390/jmse13101907 - 3 Oct 2025

As a core component of large marine engines, the compressor delivers robust and efficient power for propulsion. This study focuses on assessing and quantifying the uncertainty in the aerodynamic performance of a transonic rotor under various operating conditions, with the aim of investigating [...] Read more.

As a core component of large marine engines, the compressor delivers robust and efficient power for propulsion. This study focuses on assessing and quantifying the uncertainty in the aerodynamic performance of a transonic rotor under various operating conditions, with the aim of investigating the impact of blade manufacturing variability on performance. Monte Carlo simulation (MCS) and sensitivity analysis were initially employed to identify parameters that significantly influence airfoil performance. Subsequently, a non-intrusive polynomial chaos (NIPC) uncertainty quantification model was developed to compare the effects of tip clearance deviation and surface geometry deviation on rotor performance. The study then analyzes how the geometric deviation at the different spanwise sections affects aerodynamic performance. The results reveal that geometric deviations have a more profound influence on aerodynamic performance than blade tip clearance. The impact of geometric deviations on average pressure ratio and efficiency of the transonic compressor rotor intensifies as the air mass flow rate approaches the near-stall point, while it decreases near the choking point. Interestingly, fluctuations in pressure ratio exhibit the opposite trend. Regarding spatial distribution, deviations in the upper half of the blade span (near the tip) exert a more dramatic influence on mass flow rate and pressure ratio fluctuation. A conceivable reason is that the inlet airflow velocity increases along the radial direction of the blade, and manufacturing variations in the same magnitude produce more notable relative geometric deviations in the upper half of the blade span. Centered on the machining tolerance guidelines for transonic compressor rotors, this work recommends stricter profile tolerance requirements for the upper half of the blade span. Full article

(This article belongs to the Section Ocean Engineering)

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20 pages, 3732 KB

Open AccessArticle

Numerical Verification of an Anchor-Free Jack-Up Installation Method for Offshore Wind Turbine Structures Using Tugboat Fleet

by Min Han, Young IL Park, A Ra Ko, Jin Young Sung and Jeong-Hwan Kim

J. Mar. Sci. Eng. 2025, 13(10), 1906; https://doi.org/10.3390/jmse13101906 - 3 Oct 2025

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Journal of Marine Science and Engineering

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