The encounter of extreme waves, extreme wave groups, or unfavorable wave sequences poses dangerous threats for ships and floating/stationary marine structures. The impact of extreme waves causes enormous forces, whereas an unfavorable wave sequence—not necessarily extreme waves—can arouse critical motions or even resonance, often leading to loss of cargo, ship, or crew. Thus, besides a well thought-out maritime design, a system detecting critical incoming wave sequences in advance can help avoiding those dangerous situations, increasing the safety of sea transport or offshore operations. During the last two years a new system for decision support onboard a ship or floating/fixed marine structure named CASH—Computer Aided Ship Handling—has been introduced. The preceding papers showed the step wise development of the main components of the program code—3d-wave forecast and 3d-ship motion forecast. These procedures provide a deterministic approach to predict the short crested seas state within radar range of the ship, as well as resulting ship motions in six degrees of freedom. Both methods have been enhanced with special focus on the speed of calculation to ensure a just-in-time forecast. A newly developed component is the adaptive 3d-pressure distribution. This method calculates the pressure distribution along the wetted surface of the ship hull using a newly developed stretching approach. With the end of the joint project Loads on Ships in Seaway (LaSSe), (funded by the German Government) the paper presents the CASH system, giving the possibility to detect critical situations in advance. Thus not only decision support onboard a cruising ship can be provided, but also time windows for offshore operations are identified well in advance.
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e-mail: kosleck@naoe.tu-berlin.de
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August 2012
Structures and Safety Reliability
Critical Situations of Vessel Operations in Short Crested Seas—Forecast and Decision Support System
Günther F. Clauss,
Günther F. Clauss
Ocean Engineering Department,
Technical University Berlin
, Salzufer 17-19, SG 17, 10587 Berlin, Germany
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Sascha Kosleck,
Sascha Kosleck
Ocean Engineering Department,
e-mail: kosleck@naoe.tu-berlin.de
Technical University Berlin
, Salzufer 17-19, SG 17, 10587 Berlin, Germany
Search for other works by this author on:
Daniel Testa
Daniel Testa
Ocean Engineering Department,
Technical University Berlin
, Salzufer 17-19, SG 17, 10587 Berlin, Germany
Search for other works by this author on:
Günther F. Clauss
Ocean Engineering Department,
Technical University Berlin
, Salzufer 17-19, SG 17, 10587 Berlin, Germany
Sascha Kosleck
Ocean Engineering Department,
Technical University Berlin
, Salzufer 17-19, SG 17, 10587 Berlin, Germany
e-mail: kosleck@naoe.tu-berlin.de
Daniel Testa
Ocean Engineering Department,
Technical University Berlin
, Salzufer 17-19, SG 17, 10587 Berlin, Germany
J. Offshore Mech. Arct. Eng. Aug 2012, 134(3): 031601 (15 pages)
Published Online: February 2, 2012
Article history
Received:
July 27, 2009
Revised:
March 30, 2011
Online:
February 2, 2012
Published:
February 2, 2012
Citation
Clauss, G. F., Kosleck, S., and Testa, D. (February 2, 2012). "Critical Situations of Vessel Operations in Short Crested Seas—Forecast and Decision Support System." ASME. J. Offshore Mech. Arct. Eng. August 2012; 134(3): 031601. https://doi.org/10.1115/1.4004515
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