Cold flow in the Arctic: a feasibility study

Master's thesis in Offshore technology : subsea technology As global energy demands continue to grow, the oil and gas industry is challenged to keep up the pace. The more easily accessible source of energy are getting scarcer, forcing the oil and gas industry to move into deeper waters and hars...

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Bibliographic Details
Main Author: Tanja, Vinatovskaja
Format: Master Thesis
Language:English
Published: University of Stavanger, Norway 2015
Subjects:
Arctic
gas hydrates
cold flow
thermodynamic inhibitors
direct electrical heating
offshore teknologi
undervannsteknologi
VDP::Technology: 500::Marine technology: 580::Offshore technology: 581
Online Access:http://hdl.handle.net/11250/299954
id ftunivstavanger:oai:uis.brage.unit.no:11250/299954
record_format openpolar
spelling ftunivstavanger:oai:uis.brage.unit.no:11250/299954 2023-06-11T04:08:07+02:00 Cold flow in the Arctic: a feasibility study Tanja, Vinatovskaja 2015-06 application/pdf http://hdl.handle.net/11250/299954 eng eng University of Stavanger, Norway http://hdl.handle.net/11250/299954 84 Arctic gas hydrates cold flow thermodynamic inhibitors direct electrical heating offshore teknologi undervannsteknologi VDP::Technology: 500::Marine technology: 580::Offshore technology: 581 Master thesis 2015 ftunivstavanger 2023-05-29T16:02:43Z Master's thesis in Offshore technology : subsea technology As global energy demands continue to grow, the oil and gas industry is challenged to keep up the pace. The more easily accessible source of energy are getting scarcer, forcing the oil and gas industry to move into deeper waters and harsher environments. Development of Arctic shelf reserves is one of the areas oil and gas production can be maintained through. The Arctic shelf may become a significant source for long term production growth. However, severe Arctic conditions – the difficult ice conditions, challenging weather and lack of infrastructure – demand a different approach and technologies. Gas and oil production in the Arctic is associated with the necessity of long distance transport causing transported natural gas and water to form gas hydrates. Hydrate formation followed by accumulation forms a slug. As the result, it leads to pipeline restriction and blockage. Clearly, these slugs will hinder the hydrocarbons to flow. To avoid this more and more attention has been paid to develop flow assurance approaches to prevent the formation of hydrate plugs. Using a case study, this master thesis focuses on comparing employment of the innovative technology to avoid gas hydrates initiation and agglomeration – cold flow – in the Arctic with two conventional ones. Injection of thermodynamic inhibitors and direct electrical heating represent conventional technologies to tackle the hydrates in the case study. All the named techniques are applied to a fictional field development in the Arctic and analyzed on basis of their design, their environmental impact and challenges each of the methods has to face in the Arctic. Economical evaluation of hydrate preventing techniques is an essential part of this case study and includes capital and operational expenditure of employing each of the methods. This master thesis concludes that the cold flow technology is the most favorable solution for the Arctic compared to the other technologies discussed in the report. Its ... Master Thesis Arctic University of Stavanger: UiS Brage Arctic
institution Open Polar
collection University of Stavanger: UiS Brage
op_collection_id ftunivstavanger
language English
topic Arctic
gas hydrates
cold flow
thermodynamic inhibitors
direct electrical heating
offshore teknologi
undervannsteknologi
VDP::Technology: 500::Marine technology: 580::Offshore technology: 581
spellingShingle Arctic
gas hydrates
cold flow
thermodynamic inhibitors
direct electrical heating
offshore teknologi
undervannsteknologi
VDP::Technology: 500::Marine technology: 580::Offshore technology: 581
Tanja, Vinatovskaja
Cold flow in the Arctic: a feasibility study
topic_facet Arctic
gas hydrates
cold flow
thermodynamic inhibitors
direct electrical heating
offshore teknologi
undervannsteknologi
VDP::Technology: 500::Marine technology: 580::Offshore technology: 581
description Master's thesis in Offshore technology : subsea technology As global energy demands continue to grow, the oil and gas industry is challenged to keep up the pace. The more easily accessible source of energy are getting scarcer, forcing the oil and gas industry to move into deeper waters and harsher environments. Development of Arctic shelf reserves is one of the areas oil and gas production can be maintained through. The Arctic shelf may become a significant source for long term production growth. However, severe Arctic conditions – the difficult ice conditions, challenging weather and lack of infrastructure – demand a different approach and technologies. Gas and oil production in the Arctic is associated with the necessity of long distance transport causing transported natural gas and water to form gas hydrates. Hydrate formation followed by accumulation forms a slug. As the result, it leads to pipeline restriction and blockage. Clearly, these slugs will hinder the hydrocarbons to flow. To avoid this more and more attention has been paid to develop flow assurance approaches to prevent the formation of hydrate plugs. Using a case study, this master thesis focuses on comparing employment of the innovative technology to avoid gas hydrates initiation and agglomeration – cold flow – in the Arctic with two conventional ones. Injection of thermodynamic inhibitors and direct electrical heating represent conventional technologies to tackle the hydrates in the case study. All the named techniques are applied to a fictional field development in the Arctic and analyzed on basis of their design, their environmental impact and challenges each of the methods has to face in the Arctic. Economical evaluation of hydrate preventing techniques is an essential part of this case study and includes capital and operational expenditure of employing each of the methods. This master thesis concludes that the cold flow technology is the most favorable solution for the Arctic compared to the other technologies discussed in the report. Its ...
format Master Thesis
author Tanja, Vinatovskaja
author_facet Tanja, Vinatovskaja
author_sort Tanja, Vinatovskaja
title Cold flow in the Arctic: a feasibility study
title_short Cold flow in the Arctic: a feasibility study
title_full Cold flow in the Arctic: a feasibility study
title_fullStr Cold flow in the Arctic: a feasibility study
title_full_unstemmed Cold flow in the Arctic: a feasibility study
title_sort cold flow in the arctic: a feasibility study
publisher University of Stavanger, Norway
publishDate 2015
url http://hdl.handle.net/11250/299954
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_source 84
op_relation http://hdl.handle.net/11250/299954
_version_ 1768381261221462016

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