1st Edition
Developments in the Collision and Grounding of Ships and Offshore Structures Proceedings of the 8th International Conference on Collision and Grounding of Ships and Offshore Structures (ICCGS 2019), 21-23 October, 2019, Lisbon, Portugal
Developments in the Collision and Grounding of Ships and Offshore includes the contributions to the 8th International Conference on Collision and Grounding of Ships and Offshore Structures (ICCGS 2019, Lisbon, Portugal, 21-23 October 2019). The series of ICCGS-conferences started in 1996 in San Francisco, USA, and are organised every three years in Europe, Asia and the Americas.
Developments in the Collision and Grounding of Ships and Offshore covers a wide range of topics, from the behavior of large passenger vessels in collision and grounding, collision and grounding in arctic conditions including accidental ice impact, stability residual strength and oil outflow of ships after collision or grounding, collision and grounding statistics and predictions and measures of the probability of incidents, risk assessment of collision and grounding, prediction and measures for reduction of collision and grounding, new designs for improvement of structural resistance to collisions, analysis of ultimate strength of ship structures (bulkheads, tank tops, shell etc.), design of buffer bows to reduce collision consequences, design of foreship structures of ferries with doors to avoid water ingress in case of a collision, development of rational rules for the structural design against collision and grounding, innovative navigation systems for safer sea transportation, the role of IMO, classification societies, and other regulatory bodies in developing safer ships, collision between ships and offshore structures, collision between ships and fixed or floating bridges and submerged tunnels, collision with quays and waterfront structures, collision and grounding experiments, properties of marine-use materials under impact loadings, residual strength of damaged ships and offshore structures, analysis of ultimate strength of ship structures, to human factors in collision and grounding accidents.
Developments in the Collision and Grounding of Ships and Offshore is a valuable resource for academics, engineers and professionals involved in these areas.
Collision and grounding case studies
ASIS web girder test: A miniature experiment
M.A.G. Calle, P. Kujala, M. Salmi & L.M. Mazzariol
Numerical study on crashworthiness of sandwich structures under impact loads
J. Pan, Y.F. Huang, M.C. Xu & C.Y. Zhou
Ship collision damages: Case studies
S. Zhang, P. Terndrup Pedersen & R. Villavicencio
Collision and grounding – indentation
Analysis of the resistance to penetration of aluminium-alloy plates
B. Liu, A. Dong, L. Chen, K. Liu & C. Guedes Soares
Verification of crashworthiness of highly ductile steel by large-scale model tests
T. Okawa, K. Ichikawa, H. Shimanuki, S. Nakamura, N. Oda &Y. Yamada
Dynamic response of hat-stiffened panels subjected to hemisphere indenter impacts
Y. Sha, J. Amdahl & K. Liu
Collision and grounding – side and bottom
Numerical investigation on the influence of stiffeners on the crushing resistance of web girders in ship grounding
B.Q. Chen & C. Guedes Soares
Numerical analysis of ship collisions accounting for bow and side deformation interaction
B. Liu, G.Wang, L. Chen, X.T. Liao & C. Guedes Soares
Structural response analysis of ship side structure in oblique collision scenarios
Z.Wang, Z. Hu & G. Chen
Collision and grounding – cylindrical members
Fracture response of tubular T-joints under dynamic mass impact
Q.T. Do, D.N.C. Le, B.S. Seo, H.K. Shin & S.-R. Cho
Numerical crashworthiness analysis of a spar floating offshore wind turbine impacted by a ship
S. Echeverry, L. Márquez, Ph. Rigo & H. Le Sourne
Experimental and numerical research on the behavior of offshore tubular member under lateral indentation
Y. Rong, H. Yuan, J.X. Liu,W.G. Liu,W. Luo & Z.Q. Hu
Related problems – fluid-structure interaction
Advanced numerical technique of ship collision considering fluid effect
J. Choung, K. Lee & B. Park
Bending response of a damaged ship hull girder predicted by the cyclic progressive collapse method
S. Li, Z.Q. Hu & S.D. Benson
Simplified modelling of surface ship whipping response to underwater explosion
R. Trivedi, H. Le Sourne, S. Paroissien, S. Branchereau & C. Lucas
Related problems – analysis of experiments
Experimental study on the dynamic response of a beam under repeated impacts
X. He & C. Guedes Soares
Numerical study on the structural behavior of intact and damaged box beams under four-point bending load
T. Putranto & M. Kõrgesaar
Average stress-strain behaviour of stiffened plates of a box girder in the progressive collapse analysis
M. Tekgoz, Y. Garbatov & C. Guedes Soares
Related problems – material properties
High ductility steels for impact resistance: Experimental results
B. Atli-Veltin, O.J. Coppejans, M. Hoogeland & J.W. van Bergen
Numerical stress-strain analysis of butt-welded plates during the welding process
M. Hashemzadeh, Y. Garbatov & C. Guedes Soares
Accuracy of material models for the dynamic behavior of K-joints under impact loads
Y. Lu, K. Liu, Z.Wang &W. Tang
Related problems – behaviour of plates
Scaling the saturated impulse behaviour of strain-rate sensitive square plates
X. He, C. Guedes Soares & L. Zhu
Residual strength of stiffened plates having multiple denting damages
S.-H. Park, E. Kang, S.-R. Cho, Y.-S. Jang, N.-K. Baek & D.-K. Park
Ultimate strength assessment of square plate subjected to uni-axial dynamic load
M. Tekgoz, Y. Garbatov & C. Guedes Soares
Related problems – ice impact
Very efficient ship-to-ice interaction simulations using user-subroutine of a commercial finite element code
D. Han, J. Choung, K.-J. Paik & H.S. Kim
Ramming induced ice loads between the ship bow and multiyear thick ice in AntarcticWeddell Sea
L. Lu, P. Kujala, O.A. Valdez Banda & F. Goerlandt
Evaluation of load-carrying capacity of a submersible platform subjected to accidental ice impacts
Z. Yu, J. Amdahl & S. Løset
Related problems – composites
Study on slamming of the foam core carbon fibre V-shaped plate frame
Z. Qin, T. Zhang, L. Zhang & Z. Chen
ALE and finite element investigation of water impact on composite panels
N. Silva, S.Wang & C. Guedes Soares
Optimization design of composite reinforced pressure-resistant cylindrical shell based on ISIGHT
A.H. Zheng, T. Zhang, L. Zhang & C. Zhao
Traffic modelling
Research on change of traffic safety accompanying the implementation of a new recommended route
H. Itoh & R. Miyake
Quantifying the grounding probability in narrow waterways
¸S. Özlem, Y.C. Altan, E.N. Otay & I. Or
Decision-making model for navigation strategy of intelligent ships
H.B. Tian, B.Wu, C.C. Ting & J.H. Zhang
Traffic modelling – big data
Assessment of ship encounter and collision in congested sea areas
S. Kawashima & H. Itoh
Spatial challenges of maritime risk analysis using big data
A. Rawson, Z. Sabeur & G. Correndo
Collision probability assessment based on uncertainty prediction of ship trajectories
H. Rong, A.P. Teixeira & C. Guedes Soares
Traffic modelling – ship domain
An intelligent method for real-time ship collision risk assessment and visualization
L. Du, O.A. Valdez Banda & P. Kujala
Semi-dynamic ship domain in the encounter situation of two vessels
M. Gil, J. Montewka, P. Krata, T. Hinz & S. Hirdaris
A comparison of two definitions of ship domain for analysing near ship-ship collisions
A. Hörteborn, J.W. Ringsberg & M. Svanberg
Traffic modelling – human factors
Analysing human factors for naval navigation accidents using HFACS
V. P. da Conceição, A.C. Canas & J. Dahlman
Human contribution to safety of smart ships
J. Hüffmeier & S. Bram
A novel collision risk awareness framework for ships in real-time operating conditions
X.L. Yuan, D. Zhang, J.F. Zhang, M.Y. Zhang & C. Guedes Soares
Traffic modelling – pollution
Event risk classification method for pollution preparedness and response
V. Laine, O.A. Valdez Banda & F. Goerlandt
A simulation model to support planning of resources to combat oil spills at sea
J. Mazurek, J. Montewka & L. Smolarek
Risk analysis of ship collision considering striking ship velocity and plate ductility
Y. Yamada, H. Ochi & K. Ichikawa
Related problems – operational aspects
Rudder roll damping and ship heading control using a model predictive control algorithm
H.N. Esfahani & R. Szlapczynski
Bayesian approach to ship speed prediction based on operational data
P. Krata, R. Vettor & C. Guedes Soares
Biography
Carlos Guedes Soares is a Professor at the Center for Marine Technology and Engineering (CENTEC), Technical University of Lisbon, Portugal.
