MOPS

Open Design System for Offshore- and Polar Systems

supported by

BMWi -  Federal Ministry for Economic Affairs and Energy

Partners

Pella Sietas, OVERDICK, MAREVAL, FSG, TUHH

Duration

01.04.2016 - 31.03.2019

For more detailed information please get in touch with one of the contact persons: Charlott Weltzien, Michał Josten, Adele Lübcke

Publications

The following publications have been written during the research project:

[143621]
Title: An Analytical Method for Calculating Hydrostatics for Jacket Structures.
Written by: Irene Last, Stefan Krüger
in: <em>OMAE, Ft. Lauderdale, USA</em>. (2020).
Volume: Number:
on pages:
Chapter:
Editor:
Publisher:
Series:
Address:
Edition:
ISBN:
how published:
Organization:
School:
Institution:
Type:
DOI:
URL:
ARXIVID:
PMID:

[pdf]

Note: MOPS

Abstract: In response to the continuing importance of offshore structures a framework for the simulation of offshore platforms is implemented in the open software environment E4. The noncommercial suite contains various methods for the ship design so that the newly developed procedures benefit from the existing knowledge. Jacket structures are installed as fixed platforms or compliant towers and play a significant role in the offshore exploitation. They are made out of hundreds of tubular steel members and each of the cylinders or cones can be seen as a simple body compared to ships. Besides the dynamic behaviour and fatigue analysis, the examination of the installation procedure especially the launch operation is of high interest. This article presents an analytical approach for the hydrostatic calculations of partially submerged cylinders. Hydrostatic forces on jacket structures are calculated by superimposing single cylinders and the results of the newly developed method are compared with a commercial simulation software. The aim is to speed up the computation time in comparison to numerical methods which is a significant advantage in the early design stage. The presented method will be the foundation for the simulation of jacket launching manoeuvres in time domain.