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Contemporary Ideas on Ship Stability
1st Edition - December 14, 2000
Authors: D. Vassalos, M. Hamamoto, D. Molyneux, A. Papanikolaou
Editors: J. Otto de Kat, K. Spyrou, N. Umeda
Language: English
Hardback ISBN:9780080436524
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eBook ISBN:9780080547015
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Widely publicised disasters serve as a reminder to the maritime profession of the eminent need for enhancing safety cost-effectively and as a strong indicator of the existing gaps…Read more
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Widely publicised disasters serve as a reminder to the maritime profession of the eminent need for enhancing safety cost-effectively and as a strong indicator of the existing gaps in the stability safety of ships and ocean vehicles. The problem of ship stability is so complex that practically meaningful solutions are feasible only through close international collaboration and concerted efforts by the maritime community, deriving from sound scientific approaches. Responding to this and building on an established track record of co-operative research between UK and Japan, a Collaborative Research Project (CRP) was launched in 1995.
This volume includes selected material from the first four workshops: 1st in University of Strathclyde, July 1995 organized by Professor Vassalos; 2nd in Osaka Japan, Osaka University, November 1996 organized by Professor Masami Hamamoto; 3rd in Crete Greece, Ship Design Laboratory of the National Technical University of Athens (NTUA-SDL), October 1997 organized by Professor Apostolos Papanikolaou; and 4th in Newfoundland Canada, Institute for Marine Dynamics, September 1998 organized by David Molyneux. It contains 46 papers that represent all currently available expertise on ship stability, spanning 17 countries from around the world. The framework adopted for grouping the papers aims to cover broad areas of ship stability in a way that it provides a template for future volumes.
Preface. Stability of the Intact Ship. Experimental investigation of ship dynamics in extreme waves (S. Grochowalski). A mathematical model of ship motions leading to capsize in astern waves (M. Hamamoto, A. Munif). A note on the conceptual understanding of the stability theory of ships (A.Y. Odabasi). The role and the methods of simulation of ship behaviour at sea including ship capsizing (V. Armenio et al.). Geometrical aspects of the broaching-to instability (K.J. Spyrou). Application of nonlinear dynamical system approach to ship capsize due to broaching in following and quartering seas (N. Umeda). Broaching and capsize model tests for validation of numerical ship motion predictions (J. O. de Kat, W.L. Thomas III). Sensitivity of capsize to a symmetry breaking bias (B. Cotton et al.). Some recent advances in the analysis of ship roll motion (B. Cotton et al.). Ship capsize assessment and nonlinear dynamics (K.J. Spyrou). The mathematical modelling of large amplitude rolling in beam waves (A. Francescutto, G. Contento). Characteristics of roll motion for small fishing boats (K. Amagai et al.). Piecewise linear approach to nonlinear ship dynamics (V. Belenkiy). Damaged Ship Stability. The water on deck problem of damaged ro-ro ferries (D. Vassalos). Water-on-deck accumulation studies by the sname ad hoc ro-ro safety panel (B.L. Hutchison). An experimental study on flooding into the car deck of a ro-ro ferry through damaged bow door (N. Shimizu et al.). Damage stability tests with models of ro-ro ferries a cost effective method for upgrading and designing ro-ro ferries (M. Schindler). About safety assessment of damaged ships (R. Kambisseri, Y. Ikeda). Survivability of damaged ro-ro passenger vessels (B.C. Chang, P. Blume). Dynamics of a ship with partially flooded compartment (J. O. de Kat). Ro-ro passenger vessels survivability-a study of three different hull forms considering different ro-ro-deck subdivisions (A.E. Jost, P. Blume). Simulation of large amplitude ship motions and of capsizing in high seas (A.D. Papanikolaou et al.). On the critical significant wave height for capsizing of a damaged ro-ro passenger ship (T. Haraguchi et al.). Exploration of the applicability of the static equivalence method using experimental data (A. Kendrick et al.). Modelling the accumulation of water on the vehicle deck of a damaged ro-ro vessel and proposal of survival criteria (D. Vassalos et al.). Special Problems of Ship Stability. Damage stability with water on deck of a ro-ro passenger ship in waves (S. Ishida et al.). A study on capsizing phenomena of a ship in waves (S.Y. Hong et al.). Physical and numerical simulation on capsizing of a fishing vessel in head sea condition (T. Hirayama, K. Nishimura). The influence of liquid dynamics on ship stability (N.N. Rakhmanin, S.G. Zhivitsa). Exploring the possibility of stability assessment without reference to hydrostatic data (R. Birmingham). Stability of high speed craft (Y. Ikeda, T. Katayama). Nonlinear roll motion and bifurcation of a ro-ro ship with flooded water in regular beam waves (S. Murashige et al.). Effects of some seakeeping/manoeuvring aspects on broaching in quartering seas (N. Umeda). Ship manoeuvring performance in waves (K. Kijima, Y. Furukawa). Stability of a planing craft in turning motion (Y. Ikeda et al.). An experimental study on the improvement of transverse stability at running for high-speed craft (Y. Washio et al.). Water discharge from an opening in ships (S.M. Calisal et al.). Impact of Stability on Design and Operation. Passenger survival-based criteria for ro-ro vessels (D. Vassalos et al.). Nonlinear dynamics of ship rolling in beam seas and ship design (K.J. Spyrou et al.). Ship crankiness and stability regulation (N.N. Rakhmanin, G.V. Vilensky). The impact of recent stability regulations on existing and new ships. Impact on the design of ro-ro passenger ships (M. Kanerva). A realisable concept of a safe haven ro-ro design (D. Vassalos). Design aspects of survivability of surface naval and merchant ships (A. Papanikolaou, E. Boulougouris). A technique for assessing the dynamic stability and capsize resistance of ships (M. Renilson). Probability to encounter high run of waves in the dangerous zone shown on the operational guidance/imo for following/quartering sea (Y. Takaishi et al.). Ongoing work examining capsize risk of intact frigates using time domain simulation (K. McTaggart). Author Index.
No. of pages: 608
Language: English
Edition: 1
Published: December 14, 2000
Imprint: Elsevier Science
Hardback ISBN: 9780080436524
eBook ISBN: 9780080547015
JO
J. Otto de Kat
Affiliations and expertise
Marin, The Netherlands
KS
K. Spyrou
Affiliations and expertise
Greece
NU
N. Umeda
Affiliations and expertise
Japan
DV
D. Vassalos
Affiliations and expertise
Ship Stability Research Centre, 8th Floor, Colville Building, 48 North Portland Street, Glasgow, GI1 1XM, UK
MH
M. Hamamoto
Affiliations and expertise
Osaka University, Department of Naval Architecture and Ocean Engineering, Japan
DM
D. Molyneux
Affiliations and expertise
Leader of Ship Technology Research Group, Institute for Marine Dynamics, Newfoundland, Canada
AP
A. Papanikolaou
Affiliations and expertise
National Technical University of Athens, Ship Design Laboratory, Department of Naval Architecture and Marine Engineering, Greece