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  • 1
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    International Arctic Petroleum Cooperation : Barents Sea scenarios (2015)
    London, New York : Routledge
    Details
    Keywords: Actic region ; natural resources ; petroleum industry ; oil industry
    Description / Table of Contents: Table of Contents --- Introduction --- Barents Sea oil and gas 2025 : Three scenarios --- Norwegian–Russian political relations and Barents oil and gas developments
    Pages: Online-Ressource (XXV, 291 Seiten)
    ISBN: 9781315768762
    URL: http://www.oapen.org/record/627850
    Language: English
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  • 2
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    Chapter 2 Barents Sea oil and gas 2025 (2021)
    Taylor & Francis | International Arctic Petroleum Cooperation: Barents Sea Scenarios | Routledge
    Details
    Publication Date: 2023-09-12
    Description: What are some of the possible futures for Barents Sea oil and gas? This chapter draws upon the key trends and issues covered by the book’s thematic chapters and presents three scenarios on the prospects for Norwegian–Russian cooperation in the Barents Sea. Ultimately human interaction will play a large part in how the Barents Sea is developed, and we have therefore given the scenarios metaphorical titles related to interaction between people.
    Keywords: natural resources ; arctic region ; natural resources ; arctic region ; Barents Sea ; Lofoten ; Norway ; Petroleum ; Price of oil ; Russia ; Russians ; bic Book Industry Communication::K Economics, finance, business & management::KN Industry & industrial studies::KNB Energy industries & utilities::KNBP Petroleum & oil industries
    Language: English
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  • 3
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    Chapter 2 Barents Sea oil and gas 2025 (2021)
    Taylor & Francis | Routledge
    Details
    Publication Date: 2023-09-12
    Description: The Arctic region contains large amounts of natural resources considered necessary to sustain global economic growth, so it is unsurprising that it is increasingly susceptible to political, economic, environmental, and even military conflicts. This book looks in detail at the preconditions and outlook for international cooperation on the development of Arctic petroleum resources, focusing on Norwegian–Russian cooperation in the Barents Sea towards 2025. The authors provide a cross-disciplinary approach including geopolitical, institutional, technological, corporate and environmental perspectives to analyse the underlying factors that shape the future development of the region. Three future scenarios are developed, exploring various levels of cooperation and development influenced by and resulting from potential political, commercial and environmental circumstances. Through these scenarios, the book improves understanding of the challenges and opportunities for Arctic petroleum resource development and promotes further consideration of the possible outcomes of future cooperation. The book should be of interest to students, scholars and policy-makers working in the areas of Arctic studies, oil and gas studies, energy security, global environmental governance, environmental politics and environmental technology. Chapter 1 of this book is freely available as a downloadable Open Access PDF under a Creative Commons Attribution-Non Commercial-No Derivatives 3.0 license. https://s3-us-west-2.amazonaws.com/tandfbis/rt-files/docs/Open+Access+Chapters/9781138783263_oachapter1.pdf Chapter 2 of this book is freely available as a downloadable Open Access PDF under a Creative Commons Attribution-Non Commercial-No Derivatives 3.0 license. https://s3-us-west-2.amazonaws.com/tandfbis/rt-files/docs/Open+Access+Chapters/9781138783263_oachapter2.pdf Chapter 6 of this book is freely available as a downloadable Open Access PDF under a Creative Commons Attribution-Non Commercial-No Derivatives 3.0 license. https://s3-us-west-2.amazonaws.com/tandfbis/rt-files/docs/Open+Access+Chapters/9781138783263_oachapter6.pdf
    Keywords: Arctic natural resources ; Arctic Oil and Gas ; Arctic Politics ; Arctic region ; Arctic studies ; Big Oil Playground, Russian Bear Preserve or European Periphery ; Climate Change ; Conservation ; Development technology ; Environmental economics ; Environmental policy ; Environmental studies ; energy security ; environmental politics ; environmental technology ; Greenland ; geopolitics ; global environmental governance ; global governance ; governance ; International Cooperation and Arctic Governance ; international management ; Negotiating the Arctic ; New Cold Climate ; Norway ; offshore development ; oil and gas studies ; Petroleum Development ; petroleum industry ; petroleum resources ; bic Book Industry Communication::K Economics, finance, business & management::KC Economics::KCM Development economics & emerging economies ; bic Book Industry Communication::R Earth sciences, geography, environment, planning::RN The environment::RNC Applied ecology ; bic Book Industry Communication::R Earth sciences, geography, environment, planning::RN The environment::RND Environmental policy & protocols
    Language: English
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  • 4
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    An Analytical Model to Predict the Effects of Suspended Solids in Injected Water on the Oil Displacement Efficiency during Waterflooding (2020)
    Molecular Diversity Preservation International
    Details
    Publication Date: 2020-06-02
    Description: Suspended solids in the injection water cause impairment of water injectivity during waterflooding operations. Suspended solids affect reservoir properties and decrease the permeability of reservoir rocks causing an increase of injection pressure and a decrease in water injectivity. Removal of all suspended solids from injection water is an expensive and economically unfeasible process. To minimize the effects of suspended solids to the formation, it is necessary to determine an impairment mechanism of suspended solids on oil displacement and, therefore, optimize the water treatment process. In this paper, an analytical model that describes the relationship between injection water quality and impairment mechanisms on oil displacement is presented. A formation impairment was calculated, introducing the parameter called impairment ratio, which represents the ratio between suspended solids and pore size distribution of reservoir rock. Based on the impairment ratio, decreases in porosity and permeability were calculated with changes in capillary pressure, relative permeability, and displacement efficiency. The model was tested for three different types of injection water. Results indicated the presence of formation impairment even with the smallest particles. Suspended solids had the greatest influence on porosity and permeability impairment. The model could be used as input for reservoir modelling studies for monitoring and controlling displacement efficiency during waterflooding as well as for planning and modification of water treatment units.
    Electronic ISSN: 2227-9717
    Topics: Biology , Chemistry and Pharmacology
    Published by Molecular Diversity Preservation International
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  • 5
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    Optimization of Integrated Template Structures for Arctic Subsea-Production Systems (2014)
    Society of Petroleum Engineers
    Details
    Publication Date: 2014-08-01
    Print ISSN: 2224-4514
    Topics: Geosciences , Chemistry and Pharmacology
    Published by Society of Petroleum Engineers
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  • 6
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    Significant production improvement using optimization of completion and artificial lift: case studies from South-West Iran (2020)
    Springer
    Details
    Publication Date: 2020-11-29
    Description: Productivity of wells in South-West Iran has decreased due to completion and production problems in recent decades. This is a large risk against sustainable production from the fields. To allow stable production, an important measure is completion and production optimization including artificial lift methods. This was investigated using simulations validated by pilot field tests. Several case studies were considered in terms of their completion and production. Five scenarios were investigated: natural production through annulus and tubing (scenario-1 and 2), artificial gas lift production through annulus (scenario-3), through tubing using non-standard gas lift (scenario-4) and using standard gas lift (scenario-5). Scenario-1 is currently the case in most wells of the field. To find the optimal scenario and completion/production parameters, simulations of 11 wells of an oilfield in the region were carried out using nodal and sensitivity analysis. The optimized parameters include wellhead pressures (WHPs), tubing dimensions, maximum tolerable water cuts and gas oil ratios and artificial gas injection rate. Simulation results were validated by pilot field tests. In addition, appropriately selected wellhead and Christmas trees for all scenarios were depicted. Simulations confirmed by field pilot tests showed that optimization of completion and production mode and parameters can contribute largely to production improvement. The results showed that the current scenario-1 is the worst of all. However, production through tubing (scenario-2) is optimal for wells which can produce with natural reservoir pressure, with an increase of 800 STB/Day rate per well compared with scenario-1. However, for wells requiring artificial gas lift, the average production rate increase (per well) from the annulus to tubing production was 1185 STB/Day. Next, using the standard gas lift (scenario-5) was found to be the optimal mode of gas lifting and is strongly recommended. WHPs in scenario-5 were the greatest of all, whereas scenario-1 gave the lowest WHPs. The optimal tubing diameter and length were determined. The greatest maximum tolerable water cut was obtained using scenario-5, whereas the lowest was with scenario-1. The maximum tolerable GOR was around 1900 scf/STB. Changing of scenarios did not have significant effect on maximum tolerable GOR. The optimal artificial gas injection rates were found. This validated simulation work proved that completion and production optimization of mode and parameters had considerable contribution to production improvement in South-West Iran. This sequential comprehensive work can be applied in any other field or region.
    Print ISSN: 2190-0558
    Electronic ISSN: 2190-0566
    Topics: Geosciences
    Published by Springer
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