Design method for safe ship structures

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Volume Title
Insinööritieteiden korkeakoulu | Doctoral thesis (article-based)
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Date
2011
Major/Subject
Mcode
Degree programme
Language
en
Pages
Verkkokirja (2078 KB, 30 s.)
Series
Aalto University publication series DOCTORAL DISSERTATIONS , 7/2011
Abstract
At present ships are designed to satisfy the minimum requirements for safety. And history shows that this practice does not suffice, and nor is it sustainable. A new paradigm is needed. This thesis aims to contribute in that respect by proposing a design method that should move ship safety beyond the minimum requirements as much as possible and as long as it is economically sound. The thesis focuses mostly on environmental safety in the event of accidents such as collisions and grounding. A special feature is the consideration of maritime stakeholder preferences regarding safety and profitability. This is an underlying element in all the analysis performed and conclusions reached. This design method features new approaches in multi-objective optimization of ship structures and in advanced decision making for design selection. The multi-objective optimization is based on evolutionary algorithms, more precisely the genetic algorithm (GA) with advanced treatment of design constraints and objectives. Through the approach of vectorization, the GA becomes not only more efficient, but also more flexible in use, bearing in mind the complexity and demands of accident analysis for optimization. The decision making is established on the concepts of Game Theory, resulting in a new criterion for design selection, the Competitive Optimum, based on the maximal concurrent satisfaction of stakeholder preferences. The proposed design method is intended in particular for ship structural design projects, permitting the definition of hull structural scantlings, or even hull topology if desired. The approaches to multi-objective optimization and design selection that are introduced possess a wider basis of application, and are extensible to other fields in maritime safety and naval architecture. The results of the thesis provide several relevant conclusions with an impact on practical naval architecture. For example, i) by increasing ship crashworthiness, significant risk reduction can be attained, ii) raising safety is economically justified if the benefits to the public are considered alongside those of the industry, and iii) the crashworthiness of ships can be controlled effectively with conventional double-bottom and double-sided structures.
Description
Supervising professor
Varsta, Petri, Prof.
Thesis advisor
Varsta, Petri, Prof.
Keywords
safety, structure, design, decision-making, optimization, Game Theory, Nash Equilibrium, tanker, Ro-Pax
Other note
Parts
  • [Publication 1]: A. Klanac, R. Jalonen, and P. Varsta. 2007. Multi-stakeholder decision-making in the risk-based design of a RO-PAX double bottom for grounding. Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, volume 221, number 1, pages 1-15. © 2007 by authors.
  • [Publication 2]: Alan Klanac and Jasmin Jelovica. 2009. Vectorization and constraint grouping to enhance optimization of marine structures. Marine Structures, volume 22, number 2, pages 225-245. © 2008 Elsevier. By permission.
  • [Publication 3]: Alan Klanac, Sören Ehlers, and Jasmin Jelovica. 2009. Optimization of crashworthy marine structures. Marine Structures, volume 22, number 4, pages 670-690. © 2009 Elsevier. By permission.
  • [Publication 4]: Alan Klanac and Petri Varsta. 2011. Design of marine structures with improved safety for environment. Reliability Engineering and System Safety, volume 96, number 1, pages 75-90. © 2010 Elsevier. By permission.
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