Operation of thrusters in arctic waters arctic thruster ecosystem

Due to collisions between ice and propeller the drive train of ice breakers in artic conditions is a highly stressed system. Aim of the ArTEco ‘Arctic Thruster Ecosystem’ project is to increase the reliability of vessels when overloads and torsional vibrations occurs. To achieve this aim different l...

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Bibliographic Details
Main Authors: Schlecht, Berthold, Mieth, Frederik, Kostial, Manuel, Rosenlöcher, Thomas, Schumann, Stefan
Format: Conference Object
Language:English
Published: CIMNE 2017
Subjects:
Àrees temàtiques de la UPC::Matemàtiques i estadística::Anàlisi numèrica::Mètodes en elements finits
Finite element method
Marine engineering
Numerical Methods
artic condition
optimization of bevel gears efficiency
Enginyeria naval
Arctic
Online Access:http://hdl.handle.net/2117/331900
Description
Summary:Due to collisions between ice and propeller the drive train of ice breakers in artic conditions is a highly stressed system. Aim of the ArTEco ‘Arctic Thruster Ecosystem’ project is to increase the reliability of vessels when overloads and torsional vibrations occurs. To achieve this aim different load scenarios will be analysed on a test rig located in Tuusula (Finland). Here the WST14 azimuth thruster, which is equipped with measuring instruments, is operated by the VTT and Wärtsilä. To investigate the behaviour of the test rig and the thruster different simulation models are created. These multibody system simulation (MBS) and finite element models (FE) are required to understand the behaviour of the thruster and investigate improvement strategies. Targets of these investigations are the dynamic behaviour during ice contact and the optimization of bevel gears in prospect of safety and efficiency. Therefor estimated propeller loads that occur during ice contact of the gear box housing or loads occur by hitting the propeller blades are used. The simulation models of the thruster regards the flexible structure of the housing and shafts. Using this information the comparison considers natural eigenfrequency correlates to the test rig in Tuusula and the misalignment of the bevel gear can be investigated, validated and an optimisation achieved. For further analysis a simulation model is assembled by TU Dresden and verified by several time based data sets and modal analysis of the test rig. That way overloads and high dynamic loads which can’t be applied on the test rig are evaluable. Besides the dynamic analysis a progress in design phase for bevel gear stages is done. This is achieved by using complex FE models including the elastic bevel gear contact, bearing stiffness, clearances and the support of the flexible housing. The complex load and temperature condition lead to different displacements of the gears. Using simulation based displacement data and the software BECAL [1] a precise contact pattern can be ...

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