Abeil, Bastien
Largest containership in the world ‘Triple-E’ first tested at MARIN! Journal Article
In: MARIN Report, no. 112, pp. 22-23, 2014.
@article{Abeil2014,
title = {Largest containership in the world ‘Triple-E’ first tested at MARIN!},
author = {Bastien Abeil},
url = {http://www.marin.nl/extra/marin-bladermodules/html/112/#22},
year = {2014},
date = {2014-08-01},
journal = {MARIN Report},
number = {112},
pages = {22-23},
abstract = {MARIN was delighted to take part in a truly historic milestone in the industry when Daewoo Shipbuilding and Marine Engineering (DSME) asked MARIN to investigate the seakeeping ability of what would become the largest container vessel in the world - Maersk Line’s Triple-E.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Hagesteijn, Gerco; Hooijmans, Patrick
Ship Design for Minimal Fuel Consumption in Everyday Use Conference
Design and Operation of Tankers, Athens, Greece, The Royal Institution of Naval Architects 2011.
@conference{Hagesteijn2011,
title = {Ship Design for Minimal Fuel Consumption in Everyday Use},
author = {Gerco Hagesteijn and Patrick Hooijmans},
url = {http://www.marin.nl/web/Publications/Publication-items/Ship-Design-for-Minimal-Fuel-Consumption-in-Everyday-Use.htm
http://www.rina.org.uk/search_publications.html
},
year = {2011},
date = {2011-06-08},
booktitle = {Design and Operation of Tankers, Athens, Greece},
organization = {The Royal Institution of Naval Architects},
abstract = {Ships are in general designed to first meet their contract speed, which is most times their trial speed. The ship design efforts are dominated by the focus to attain this trial speed. The resulting hull lines design philosophy will most likely not result into the most full efficient design in service conditions. Increasing fuel costs and low freight rates drive the need to design ships for their service conditions. It's operational draughts and added resistance due to waves that should be the key drivers for a successful modern ship design. The last years MARIN has tested and expanded its tools and capacities to support hull form design for minimal fuel consumption in everyday use, minimizing SOx and NOx emissions. Tools suchs as viscous flow calculations in an explorer mode, calculating numerous hull form variations overnight in order to maximize the performance of the vessel, and voyage simulations to determine true service margins are essential when designing a ship.},
keywords = {},
pubstate = {published},
tppubtype = {conference}
}
Dallinga, Reint; van Walree, Frans; Grin, Rob; Koning, Jos
Seakeeping issues in the design of containerships Conference
Design & Operation of Container Ships 2008, The Royal Institute of Naval Architects 2008.
@conference{Dallinga2008,
title = {Seakeeping issues in the design of containerships},
author = {Reint Dallinga and Frans van Walree and Rob Grin and Jos Koning},
url = {http://www.marin.nl/web/Publications/Papers/Seakeeping-issues-in-the-design-of-containerships.htm
http://www.rina.org.uk/search_publications.html},
year = {2008},
date = {2008-01-01},
booktitle = {Design & Operation of Container Ships 2008},
organization = {The Royal Institute of Naval Architects},
abstract = {While the advanced art of minimising the installed power for a given speed has a clear role in the design of container ships, the place of seakeeping is less well established. The incidental character of seakeeping problems at sea in combination with the fact that building for good seakeeping may decrease the container capacity and increase the building costs seems a major reason for this, in addition to the sheer complexity of the issues. The present paper
addresses the last point with an effort to give a complete review of the seakeeping issues in containership design. Based on recent experience from model tests the work explores the physical nature of the involuntary speed loss in waves and reasons for a voluntary speed reduction (green water loads, whipping accelerations due to bow and stern slamming, engine racing) or change in course (exposure of containers to wave crests, rolling). In addition a review is given of the extreme behaviour that the master would like to avoid altogether, like excessive heel due to loss of stability in following seas and parametric roll. Based on the results tentative design guidance is formulated.},
keywords = {},
pubstate = {published},
tppubtype = {conference}
}
addresses the last point with an effort to give a complete review of the seakeeping issues in containership design. Based on recent experience from model tests the work explores the physical nature of the involuntary speed loss in waves and reasons for a voluntary speed reduction (green water loads, whipping accelerations due to bow and stern slamming, engine racing) or change in course (exposure of containers to wave crests, rolling). In addition a review is given of the extreme behaviour that the master would like to avoid altogether, like excessive heel due to loss of stability in following seas and parametric roll. Based on the results tentative design guidance is formulated.
2014
Abeil, Bastien
Largest containership in the world ‘Triple-E’ first tested at MARIN! Journal Article
In: MARIN Report, no. 112, pp. 22-23, 2014.
Abstract | Links | BibTeX | Tags: added resistance in waves, Design for service, motions, seakeeping
@article{Abeil2014,
title = {Largest containership in the world ‘Triple-E’ first tested at MARIN!},
author = {Bastien Abeil},
url = {http://www.marin.nl/extra/marin-bladermodules/html/112/#22},
year = {2014},
date = {2014-08-01},
journal = {MARIN Report},
number = {112},
pages = {22-23},
abstract = {MARIN was delighted to take part in a truly historic milestone in the industry when Daewoo Shipbuilding and Marine Engineering (DSME) asked MARIN to investigate the seakeeping ability of what would become the largest container vessel in the world - Maersk Line’s Triple-E.},
keywords = {added resistance in waves, Design for service, motions, seakeeping},
pubstate = {published},
tppubtype = {article}
}
2011
Hagesteijn, Gerco; Hooijmans, Patrick
Ship Design for Minimal Fuel Consumption in Everyday Use Conference
Design and Operation of Tankers, Athens, Greece, The Royal Institution of Naval Architects 2011.
Abstract | Links | BibTeX | Tags: added resistance in waves, Design for service, Fuel consumption, speed loss, voyage simulation
@conference{Hagesteijn2011,
title = {Ship Design for Minimal Fuel Consumption in Everyday Use},
author = {Gerco Hagesteijn and Patrick Hooijmans},
url = {http://www.marin.nl/web/Publications/Publication-items/Ship-Design-for-Minimal-Fuel-Consumption-in-Everyday-Use.htm
http://www.rina.org.uk/search_publications.html
},
year = {2011},
date = {2011-06-08},
booktitle = {Design and Operation of Tankers, Athens, Greece},
organization = {The Royal Institution of Naval Architects},
abstract = {Ships are in general designed to first meet their contract speed, which is most times their trial speed. The ship design efforts are dominated by the focus to attain this trial speed. The resulting hull lines design philosophy will most likely not result into the most full efficient design in service conditions. Increasing fuel costs and low freight rates drive the need to design ships for their service conditions. It's operational draughts and added resistance due to waves that should be the key drivers for a successful modern ship design. The last years MARIN has tested and expanded its tools and capacities to support hull form design for minimal fuel consumption in everyday use, minimizing SOx and NOx emissions. Tools suchs as viscous flow calculations in an explorer mode, calculating numerous hull form variations overnight in order to maximize the performance of the vessel, and voyage simulations to determine true service margins are essential when designing a ship.},
keywords = {added resistance in waves, Design for service, Fuel consumption, speed loss, voyage simulation},
pubstate = {published},
tppubtype = {conference}
}
2008
Dallinga, Reint; van Walree, Frans; Grin, Rob; Koning, Jos
Seakeeping issues in the design of containerships Conference
Design & Operation of Container Ships 2008, The Royal Institute of Naval Architects 2008.
Abstract | Links | BibTeX | Tags: added resistance in waves, containerships, Design for service, motions, seakeeping, speed loss
@conference{Dallinga2008,
title = {Seakeeping issues in the design of containerships},
author = {Reint Dallinga and Frans van Walree and Rob Grin and Jos Koning},
url = {http://www.marin.nl/web/Publications/Papers/Seakeeping-issues-in-the-design-of-containerships.htm
http://www.rina.org.uk/search_publications.html},
year = {2008},
date = {2008-01-01},
booktitle = {Design & Operation of Container Ships 2008},
organization = {The Royal Institute of Naval Architects},
abstract = {While the advanced art of minimising the installed power for a given speed has a clear role in the design of container ships, the place of seakeeping is less well established. The incidental character of seakeeping problems at sea in combination with the fact that building for good seakeeping may decrease the container capacity and increase the building costs seems a major reason for this, in addition to the sheer complexity of the issues. The present paper
addresses the last point with an effort to give a complete review of the seakeeping issues in containership design. Based on recent experience from model tests the work explores the physical nature of the involuntary speed loss in waves and reasons for a voluntary speed reduction (green water loads, whipping accelerations due to bow and stern slamming, engine racing) or change in course (exposure of containers to wave crests, rolling). In addition a review is given of the extreme behaviour that the master would like to avoid altogether, like excessive heel due to loss of stability in following seas and parametric roll. Based on the results tentative design guidance is formulated.},
keywords = {added resistance in waves, containerships, Design for service, motions, seakeeping, speed loss},
pubstate = {published},
tppubtype = {conference}
}
addresses the last point with an effort to give a complete review of the seakeeping issues in containership design. Based on recent experience from model tests the work explores the physical nature of the involuntary speed loss in waves and reasons for a voluntary speed reduction (green water loads, whipping accelerations due to bow and stern slamming, engine racing) or change in course (exposure of containers to wave crests, rolling). In addition a review is given of the extreme behaviour that the master would like to avoid altogether, like excessive heel due to loss of stability in following seas and parametric roll. Based on the results tentative design guidance is formulated.