Wave-induced motions of gas cat: A novel catamaran for gas processing and offloading

The preliminary development of the novel concept of using a large catamaran, known as Gas Cat, as a floating natural gas processing and offloading facility is outlined. The proposed system is based on two ship-shaped hulls joined by a spanning superstructure. For off-loading purposes a carrier may d...

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Bibliographic Details
Main Authors: Thomas, G, Ford, A, Kibby, L, Binns, J, Finnie, I, Kavanagh, N
Format: Article in Journal/Newspaper
Language:unknown
Published: 2009
Subjects:
Arctic
Online Access:http://discovery.ucl.ac.uk/1448292/
id ftucl:oai:eprints.ucl.ac.uk.OAI2:1448292
record_format openpolar
spelling ftucl:oai:eprints.ucl.ac.uk.OAI2:1448292 2023-05-15T14:21:44+02:00 Wave-induced motions of gas cat: A novel catamaran for gas processing and offloading Thomas, G Ford, A Kibby, L Binns, J Finnie, I Kavanagh, N 2009 http://discovery.ucl.ac.uk/1448292/ unknown Proceedings of the International Conference on Offshore Mechanics and Arctic Engineering - OMAE , 1 71 - 79. (2009) Article 2009 ftucl 2014-09-18T23:03:29Z The preliminary development of the novel concept of using a large catamaran, known as Gas Cat, as a floating natural gas processing and offloading facility is outlined. The proposed system is based on two ship-shaped hulls joined by a spanning superstructure. For off-loading purposes a carrier may dock with or be tethered to the catamaran. A concept design has been developed based on two retrofitted VLCCs allowing for the processing and storage of 1 million bbls of condensate and approximately 240,000 m of LNG. A key aspect of the development of this concept is the accurate estimation of the motions of the catamaran in a variety of operational scenarios. Model experiments were conducted in the Model Test Basin of the Australian Maritime College using a 1:78 scale model of two full-form hulls converted into a catamaran configuration. Tests were conducted in head, beam and oblique seas for two hull spacings and a range of wave heights. The experimental results show that, for the range of wave conditions tested, good linearity of the motions can be expected with respect to wave height. An increase in demihull separation was found to significantly reduce the sway, heave and roll motions in beam seas. However a change in demihull separation had little influence on the motions in oblique seas. A change in heading angle from head seas to beam seas significantly increased the sway, heave and roll motions whilst reducing pitch motions. Bow quartering seas was seen to be the worst heading angle for yaw. The results from the experiments allowed the expected motions of the Gas Cat to be determined in extreme weather conditions. Copyright © 2009 by ASME. Article in Journal/Newspaper Arctic University College London: UCL Discovery
institution Open Polar
collection University College London: UCL Discovery
op_collection_id ftucl
language unknown
description The preliminary development of the novel concept of using a large catamaran, known as Gas Cat, as a floating natural gas processing and offloading facility is outlined. The proposed system is based on two ship-shaped hulls joined by a spanning superstructure. For off-loading purposes a carrier may dock with or be tethered to the catamaran. A concept design has been developed based on two retrofitted VLCCs allowing for the processing and storage of 1 million bbls of condensate and approximately 240,000 m of LNG. A key aspect of the development of this concept is the accurate estimation of the motions of the catamaran in a variety of operational scenarios. Model experiments were conducted in the Model Test Basin of the Australian Maritime College using a 1:78 scale model of two full-form hulls converted into a catamaran configuration. Tests were conducted in head, beam and oblique seas for two hull spacings and a range of wave heights. The experimental results show that, for the range of wave conditions tested, good linearity of the motions can be expected with respect to wave height. An increase in demihull separation was found to significantly reduce the sway, heave and roll motions in beam seas. However a change in demihull separation had little influence on the motions in oblique seas. A change in heading angle from head seas to beam seas significantly increased the sway, heave and roll motions whilst reducing pitch motions. Bow quartering seas was seen to be the worst heading angle for yaw. The results from the experiments allowed the expected motions of the Gas Cat to be determined in extreme weather conditions. Copyright © 2009 by ASME.
format Article in Journal/Newspaper
author Thomas, G
Ford, A
Kibby, L
Binns, J
Finnie, I
Kavanagh, N
spellingShingle Thomas, G
Ford, A
Kibby, L
Binns, J
Finnie, I
Kavanagh, N
Wave-induced motions of gas cat: A novel catamaran for gas processing and offloading
author_facet Thomas, G
Ford, A
Kibby, L
Binns, J
Finnie, I
Kavanagh, N
author_sort Thomas, G
title Wave-induced motions of gas cat: A novel catamaran for gas processing and offloading
title_short Wave-induced motions of gas cat: A novel catamaran for gas processing and offloading
title_full Wave-induced motions of gas cat: A novel catamaran for gas processing and offloading
title_fullStr Wave-induced motions of gas cat: A novel catamaran for gas processing and offloading
title_full_unstemmed Wave-induced motions of gas cat: A novel catamaran for gas processing and offloading
title_sort wave-induced motions of gas cat: a novel catamaran for gas processing and offloading
publishDate 2009
url http://discovery.ucl.ac.uk/1448292/
genre Arctic
genre_facet Arctic
op_source Proceedings of the International Conference on Offshore Mechanics and Arctic Engineering - OMAE , 1 71 - 79. (2009)
_version_ 1766294431632195584

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