An Intelligent Assistance System for Controlling Wind-Assisted Ship Propulsion Systems

2019 IEEE 17th International Conference on Industrial Informatics (INDIN) Pub Date : 2019-07-01 DOI:10.1109/INDIN41052.2019.8972271

M. Müller, Moritz Götting, Thomas Peetz, M. Vahs, Elmar Wings

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引用次数: 5

Abstract

Ship propulsion concepts which use energy harvested from wind as an additional source of propulsive power are of great interest for the shipping industry, addressing both environmental and business considerations. Usage of such hybrid propulsion concepts is dependent on seamless integration with current systems and processes on board. An intelligent system, monitoring the wind-assisted propulsion system, assisting the vessel’s crew in its use and enabling automated, energetically optimized operation makes more widespread use of such technologies feasible. This article describes the design of such an intelligent assistance system, using an ECO Flettner rotor (which uses the Magnus effect to generate an aerodynamic thrust force) installed on the MV Fehn Pollux as an example of a wind-assisted propulsion system. Special focus is given to the approach used in the system architecture’s design for data acquisition, processing and storage as well as visualization using the system’s human machine interface (HMI). Ultimately, the presented system helps further increase the fuel-saving potential of wind-assisted propulsion systems.

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船舶风助推进系统的智能辅助控制系统

利用风能作为额外动力来源的船舶推进概念引起了航运业的极大兴趣，同时解决了环境和商业方面的问题。这种混合动力推进概念的使用取决于与船上现有系统和流程的无缝集成。一个智能系统，监控风助推进系统，协助船员使用它，并实现自动化，大力优化操作，使这种技术的更广泛应用成为可能。本文介绍了这样一个智能辅助系统的设计，使用安装在MV Fehn polux上的ECO Flettner转子(利用Magnus效应产生空气动力推力)作为风辅助推进系统的一个例子。特别关注系统架构设计中使用的方法，用于数据采集、处理和存储，以及使用系统的人机界面(HMI)进行可视化。最终，该系统有助于进一步提高风辅助推进系统的节油潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 IEEE 17th International Conference on Industrial Informatics (INDIN)

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