DP in ice environment: improving safety and efficiency of arctic operations

This paper presents an overview of a five year research and development project aiming to develop dynamic positioning (DP) system technologies specifically for ice-rich environments. It has been initiated by the Centre for Marine Simulation (CMS) at the Fisheries and Marine Institute (MI) of Memoria...

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Published in:All Days
Main Authors: Islam, Mohammed, Wang, John, Mills, Jason, Sayeed, Tanvir, Gash, Bob, Lau, Michael, Millan, David, Millan, Jim
Format: Article in Journal/Newspaper
Language:English
Published: Society of Petroleum Engineers 2016
Subjects:
Arctic
Kongsberg
University of Newfoundland
Online Access:https://doi.org/10.4043/27349-MS
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spelling ftnrccanada:oai:cisti-icist.nrc-cnrc.ca:cistinparc:23001844 2023-05-15T14:19:58+02:00 DP in ice environment: improving safety and efficiency of arctic operations Islam, Mohammed Wang, John Mills, Jason Sayeed, Tanvir Gash, Bob Lau, Michael Millan, David Millan, Jim 2016 text https://doi.org/10.4043/27349-MS https://nrc-publications.canada.ca/eng/view/ft/?id=e9ee188d-4f74-4eee-8c7d-fc2379a52c42 https://nrc-publications.canada.ca/eng/view/object/?id=e9ee188d-4f74-4eee-8c7d-fc2379a52c42 https://nrc-publications.canada.ca/fra/voir/objet/?id=e9ee188d-4f74-4eee-8c7d-fc2379a52c42 eng eng Society of Petroleum Engineers Arctic Technology Conference, Arctic Technology Conference, 24-26 October, St. John's, Newfoundland and Labrador, Canada, Publication date: 2016 doi:10.4043/27349-MS article 2016 ftnrccanada https://doi.org/10.4043/27349-MS 2021-09-01T06:32:34Z This paper presents an overview of a five year research and development project aiming to develop dynamic positioning (DP) system technologies specifically for ice-rich environments. It has been initiated by the Centre for Marine Simulation (CMS) at the Fisheries and Marine Institute (MI) of Memorial University of Newfoundland, with its technical partner National Research Council’s Ocean Coastal and River Engineering (OCRE-NRC) and commercial partner Kongsberg Maritime Simulation Ltd. (KMS). The primary objective of the project is to develop solutions for some of the critical challenges related to safe Arctic offshore operations by dynamic positioning. More specifically, the objective is to improve the safety and efficiency of oil and gas operations in ice infested environments through the enhancement of existing DP system technologies and training of DP operators in simulated realistic ice environments for ship operations. The project is envisioned to achieve its objective through developing a modularized simulation platform for prototype integration, validation, testing and operational studies/training. Prototypes of a DP control system, a vessel model, an ice force model, and other environmental force models will be developed. The project commenced in 2013 and is set to complete in late 2018. In this first article of the project, a discussion on the contextual aspects and formation of the project, its planning and status to-date is presented. A synopsis of the scientific and engineering research performed to-date within the project scope, with a justification of their relevance to the safe DP operations in ice is given. The high level system design of the validation platform and the deployment strategies of its major components are presented. An introductory discussion on the novel ice force modeling approach is provided. Finally, an overview of the model test program of a fully DP controlled vessel in managed ice conditions, which was completed to provide a database for building and validating the ice force model, is also offered. Peer reviewed: No NRC publication: Yes Article in Journal/Newspaper Arctic Arctic University of Newfoundland National Research Council Canada: NRC Publications Archive Arctic Kongsberg ENVELOPE(19.082,19.082,69.123,69.123) All Days
institution Open Polar
collection National Research Council Canada: NRC Publications Archive
op_collection_id ftnrccanada
language English
description This paper presents an overview of a five year research and development project aiming to develop dynamic positioning (DP) system technologies specifically for ice-rich environments. It has been initiated by the Centre for Marine Simulation (CMS) at the Fisheries and Marine Institute (MI) of Memorial University of Newfoundland, with its technical partner National Research Council’s Ocean Coastal and River Engineering (OCRE-NRC) and commercial partner Kongsberg Maritime Simulation Ltd. (KMS). The primary objective of the project is to develop solutions for some of the critical challenges related to safe Arctic offshore operations by dynamic positioning. More specifically, the objective is to improve the safety and efficiency of oil and gas operations in ice infested environments through the enhancement of existing DP system technologies and training of DP operators in simulated realistic ice environments for ship operations. The project is envisioned to achieve its objective through developing a modularized simulation platform for prototype integration, validation, testing and operational studies/training. Prototypes of a DP control system, a vessel model, an ice force model, and other environmental force models will be developed. The project commenced in 2013 and is set to complete in late 2018. In this first article of the project, a discussion on the contextual aspects and formation of the project, its planning and status to-date is presented. A synopsis of the scientific and engineering research performed to-date within the project scope, with a justification of their relevance to the safe DP operations in ice is given. The high level system design of the validation platform and the deployment strategies of its major components are presented. An introductory discussion on the novel ice force modeling approach is provided. Finally, an overview of the model test program of a fully DP controlled vessel in managed ice conditions, which was completed to provide a database for building and validating the ice force model, is also offered. Peer reviewed: No NRC publication: Yes
format Article in Journal/Newspaper
author Islam, Mohammed
Wang, John
Mills, Jason
Sayeed, Tanvir
Gash, Bob
Lau, Michael
Millan, David
Millan, Jim
spellingShingle Islam, Mohammed
Wang, John
Mills, Jason
Sayeed, Tanvir
Gash, Bob
Lau, Michael
Millan, David
Millan, Jim
DP in ice environment: improving safety and efficiency of arctic operations
author_facet Islam, Mohammed
Wang, John
Mills, Jason
Sayeed, Tanvir
Gash, Bob
Lau, Michael
Millan, David
Millan, Jim
author_sort Islam, Mohammed
title DP in ice environment: improving safety and efficiency of arctic operations
title_short DP in ice environment: improving safety and efficiency of arctic operations
title_full DP in ice environment: improving safety and efficiency of arctic operations
title_fullStr DP in ice environment: improving safety and efficiency of arctic operations
title_full_unstemmed DP in ice environment: improving safety and efficiency of arctic operations
title_sort dp in ice environment: improving safety and efficiency of arctic operations
publisher Society of Petroleum Engineers
publishDate 2016
url https://doi.org/10.4043/27349-MS
https://nrc-publications.canada.ca/eng/view/ft/?id=e9ee188d-4f74-4eee-8c7d-fc2379a52c42
https://nrc-publications.canada.ca/eng/view/object/?id=e9ee188d-4f74-4eee-8c7d-fc2379a52c42
https://nrc-publications.canada.ca/fra/voir/objet/?id=e9ee188d-4f74-4eee-8c7d-fc2379a52c42
long_lat ENVELOPE(19.082,19.082,69.123,69.123)
geographic Arctic
Kongsberg
geographic_facet Arctic
Kongsberg
genre Arctic
Arctic
University of Newfoundland
genre_facet Arctic
Arctic
University of Newfoundland
op_relation Arctic Technology Conference, Arctic Technology Conference, 24-26 October, St. John's, Newfoundland and Labrador, Canada, Publication date: 2016
doi:10.4043/27349-MS
op_doi https://doi.org/10.4043/27349-MS
container_title All Days
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