Optimization and Performance Evaluation of PM Motor and Induction Motor for Marine Propulsion Systems

Optimization and Performance Evaluation of PM Motor and Induction Motor for Marine Propulsion Systems

The electrification of ships and the use of electric propulsion systems are projects which have attracted increased research and industrial interest in recent years. Efforts are particularly focused on reducing pollutants for better environmental conditions and increasing efficiency. The main source...

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Bibliographic Details
Main Author: Theoklitos S. Karakatsanis
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Applied System Innovation
Subjects:
electrification system
permanent magnet synchronous motor (PMSM)
ship propulsion
efficiency
induction motor (IM)
sensitivity analysis
Online Access:https://www.mdpi.com/2571-5577/8/3/58
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Summary:The electrification of ships and the use of electric propulsion systems are projects which have attracted increased research and industrial interest in recent years. Efforts are particularly focused on reducing pollutants for better environmental conditions and increasing efficiency. The main source of propulsion for such a ship’s shafts is related to the operation of electrical machines. In this case, several advantages are offered, related to both reduced fuel consumption and system functionality. Nowadays, two types of electric motors are used in propulsion applications: traditional induction motors (IMs) and permanent magnet synchronous motors (PMSMs). The evolution of magnetic materials and increased interest in high efficiency and power density have established PMSMs as the dominant technology in various industrial and maritime applications. This paper presents a comprehensive comparative analysis of PMSMs and both Squirrel-Cage and Wound-Rotor IMs for ship propulsion applications, focusing on design optimization. The study shows that PMSMs can be up to 3.11% more efficient than IMs. Additionally, the paper discusses critical operational and economic aspects of adopting PMSMs in large-scale ship propulsion systems, such as various load conditions, torque ripple, thermal behavior, material constraints, control complexity, and lifetime costs, contributing to decision making in the marine industry.
ISSN:2571-5577

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