DIGILECK4.0
Enhanced methods and approaches for damage stability calculations
- supported by
BMWi - Federal Ministry for Economic Affairs and Energy
- Partners
Flensburger Schiffbau-Gesellschaft mbH & Co. KG, Pella Sietas GmbH, MAREVAL AG, SAL Engineering GmbH, Marinearsenal Wilhelmshaven, Fr. Lürssen Werft GmbH & Co. KG, TUHH M6
- Duration
01.04.2019 - 31.03.2022
For more detailed information please get in touch with one of the contact persons: Larissa Jannsen, Katja Aschenberg
[156285] |
Title: Damage Stability Index Potential Revealed by Direct Time-Domain Flooding Calculations of Intermediate Cases. |
Written by: Katja Aschenberg, Hendrik Dankowski |
in: <em>STAB&S, Glasgow, UK</em>. June (2021). |
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Note: DIGILECK
Abstract: To cope with the revised challenging Required Index it is very promising to focus on an advanced analysis of intermediate damage cases first before design improvements or increase of GM is taking into account. In this work a fully integrated time-domain flooding simulation within a Monte Carlo based damage calculation method for the assessment of intermediate stages is demonstrated. Only with the known explicit damage cube dimensions it is possible to investigate which opening size and location of all damages leads to the most severe intermediate situation. The openings resulting from the drawn cubes are generated fully automatic at the violated room boundaries. An extended room subdivision level within a watertight compartment is integrated in the calculation program for exact flooding propagation. Also dynamic motion of the vessel after damage is taken into account, which has a significant influence on the flooding process. This work shows the attained index potential of intermediate cross-flooding cases for example ships revealed from time-domain flooding calculation.