Lars Greitsch scite author profile

Ships are typically designed for a life cycle of about 20–25 years, with a specific transportation task, that suits the instant or estimated requirements of the owner or operator. Anyhow the business model might change due to a multitude of reasons and force the owner to buy new ships or modify the existing. Such an event took place in the year 2008 with the beginning of the financial crisis and the resulting recession, which lead to a drastic decrease of the global volume of cargo. This paper describes the re-design of the propulsion system of an existing post pan-max container vessel to suit the new economical boundary conditions.

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Implementation of Innovative Manufacturing Technologies in Foundries for Large-Volume Components

Klötzer

Wanner

Flügge

et al. 2022

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The development of new manufacturing technologies opens up new perspectives for the production of propellers (diameter < 5 m), especially since the use of the established sand casting process as a technology is only partially competitive in today’s market. Therefore, different applications of generative manufacturing methods for the implementation into the production process were investigated. One approach is the mould production using additive manufacturing processes. Investigations showed that especially for large components with high wall thicknesses available systems and processes for sand casting mould production are cost-intensive and conditionally suitable. With our development of a large-format FDM printer, however, the direct production of large-format positive moulds for, for example, yacht propellers up to 4 m in diameter is possible. Due to the comparatively low accuracy requirements for the mould, the focus is on the durability of the drive system and the rigidity of this FDM printer. Equipped with simple linear technology in portal design and cubic design of the frame structure with rigid heated print bed, the aim is to achieve maximum material extrusion via the print head. The production of plastic models not only facilitates handling during the moulding process, but also allows considerable time and cost savings to be made during the running process. A further step in our development is the direct production of the components using WAAM. A possible concept for robot-supported build-up welding for the production of new innovative propeller geometries is presented using the example of a hollow turbine blade for a tidal power plant.

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Lars Greitsch

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Entwicklung eines integrierten schiffbaulichen Entwurfs- und Simulationssystems : SESIS ; Integration Full-Mission Simulator ; Abschlussbericht zum Verbundprojekt des BMWi

Optimized Propulsor Retrofit for Slow Steaming for a Post Pan-Max Container Vessel

Implementation of Innovative Manufacturing Technologies in Foundries for Large-Volume Components

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