4.7 Article

Simulation Modeling of a Ship Propulsion System in Waves for Control Purposes

Journal

Publisher

MDPI
DOI: 10.3390/jmse10010036

Keywords

ship propulsion; simulation; diesel engine; wave; ship motions; control

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The article discusses a simulation approach to represent ship motions in waves and their interaction with the propulsion system behavior. It emphasizes the importance of developing a comprehensive simulator for analyzing the main engine thermodynamics in different sea conditions and managing other propulsion components. The study explores emerging propulsion solutions in maritime transport and highlights the complex nonlinear behavior of the propulsion plant in waves, including the effects of hull dynamic instability.
The article deals with a simulation approach to the representation of the ship motions in waves, interacting with the propulsion system behavior (diesel engine and propeller). The final goal is the development of a simulator, as complete as possible, that allows the analysis of the main engine thermodynamics in different sea conditions, also in the unfavorable event of dynamic instability of the hull, and the correct management of the other propulsion components. This latter aspect is particularly interesting in some of the last new energy solutions for decarbonization of ships, concerning, for example, auxiliary electric motors, powered by batteries, to support the traditional diesel-mechanical propulsion (especially in heavy weather conditions). From this point of view, a proper analysis of the engine dynamic performance, affected by particular sea states, is fundamental for a smart management and control of shaft generators/auxiliary electric motors, batteries, etc. To this end, the work presents and highlights the main features of a ship simulator, suitable for the study of the new propulsion solutions that are emerging in maritime transport. Some representative results will point out the complex non-linear behavior of the propulsion plant in waves. Moreover, a parametric roll scenario will be investigated, in order to highlight the capability of the conceived simulator in modeling the effects of the dynamic instability of the hull on the propulsion plant.

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