Improve Ship Propeller Efficiency via Optimum Design of Propeller Boss Cap Fins

Yin, Chungen; Rosenvinge, Christian Kjaer; Sandland, Marcus Pless; Ehlers, Anders; Shin, Kilho

doi:10.3390/en16031247

Cited by 8 publications

(1 citation statement)

References 18 publications

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“…After achieving an optimal PBCF design, it was integrated into a model-scale modern propeller/rudder system that initially lacked PBCFs. Operating under the designed conditions, this implementation provided an efficiency improvement of 0.728 percentage points, equivalent to a 1.043% increase over the original propeller/rudder system [26]. Designing propellers to enhance efficiency and minimize cavitation issues demands significant computational resources, especially during the initial planning stage.…”

Section: Energy Efficiency and Ghg Reduction In Shippingmentioning

confidence: 99%

Propeller Optimization in Marine Power Systems: Exploring Its Contribution and Correlation with Renewable Energy Solutions

Bacalja Bašić,

Krčum,

Jurić

2024

JMSE

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The goal of increasing fuel efficiency and decreasing greenhouse gas (GHG) emissions has increased interest in the application of renewable energy sources and the usage of new technologies in the maritime industry. In order to implement the most suitable source, factors such as voyage duration, storage availability, and the condition of existing vessels as well as those that are still under construction should be taken into account. Propeller optimization is proposed as a long-term solution. This paper investigates the environmental aspects of propeller optimization, focusing on its potential to reduce ship vibrations fuel consumption, and, therefore, the ship’s carbon footprint. The case study presents propeller optimization on a Ro-Ro passenger ship. The data collected during sea trials before and after propeller optimization will be compared. Expected fuel oil consumption will be correlated to the CO2 emission reduction. Besides propeller optimization, the paper performs a SWOT (strengths, weaknesses, opportunities, threats) analysis comparing it with solar and wind power applications on ships.

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Section: Energy Efficiency and Ghg Reduction In Shippingmentioning

confidence: 99%