Ugnu pilot area - simulation model and sensitivity analysis
Master's Project (M.S.) University of Alaska Fairbanks, 2020 Collaborating with Hilcorp Alaska, LLC, the Ugnu pilot area is the subject of this project. Hilcorp Alaska is conducting field pilot test at Milne Point Field to prove commerciality with Ugnu heavy oil as well as an on-going Milne vis...
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ftunivalaska:oai:scholarworks.alaska.edu:11122/11892 2023-05-15T17:40:13+02:00 Ugnu pilot area - simulation model and sensitivity analysis Wooster, Arin J. Dandekar, Abhijit Ning, Samson Zhang, Yin 2020-05 http://hdl.handle.net/11122/11892 en_US eng http://hdl.handle.net/11122/11892 Department of Petroleum Engineering Master's Project ms 2020 ftunivalaska 2023-02-23T21:37:47Z Master's Project (M.S.) University of Alaska Fairbanks, 2020 Collaborating with Hilcorp Alaska, LLC, the Ugnu pilot area is the subject of this project. Hilcorp Alaska is conducting field pilot test at Milne Point Field to prove commerciality with Ugnu heavy oil as well as an on-going Milne viscous oil polymer flood field pilot test in the Schrader Bluff sands. The Ugnu sand heavy oil represents much of the heavy oil on Alaska’s North Slope and has potential for future development. Typical heavy oil has a viscosity of 1,000 - 10,000 centipoise, approximately akin to viscosities of honey and molasses, respectively. North Slope heavy oil is located around 3,000-foot depths and typically overlays existing fields. The project involves a reservoir simulation model and sensitivity analysis to support developmental drilling plans from a Milne Point Unit pad. Necessary geologic and reservoir properties were provided for usage in this project by Hilcorp. Production data was provided for history matching. Field geologic background was also supplied to aid in the understanding of the reservoir. The reservoir simulation model was built using Computer Modelling Group software, namely Builder and IMEX. The first model iteration contained one producer in an 8,500-foot lateral pattern. Further iterations included additional producers and injectors for waterflood and polymer flood studies. Conclusions and recommendations were drawn upon analyzing the reservoir simulation results centering around favorable production strategies, polymer flood performance, comparison to the on-going Milne viscous oil polymer flood pilot, and future polymer flood studies. Completed objectives of this project included: 1. Developing a numerical reservoir simulation model for the Ugnu MB sand in the pilot area; 2. Evaluating the productivity of horizontal wells in the Ugnu MB sand; 3. Predicting ultimate oil recovery with waterflood and polymer flood; 4. Predicting polymer utilization, polymer injected per incremental oil barrels over waterflood. Other/Unknown Material north slope Alaska University of Alaska: ScholarWorks@UA Fairbanks Milne Point ENVELOPE(-100.852,-100.852,73.835,73.835) |
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Open Polar |
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University of Alaska: ScholarWorks@UA |
op_collection_id |
ftunivalaska |
language |
English |
description |
Master's Project (M.S.) University of Alaska Fairbanks, 2020 Collaborating with Hilcorp Alaska, LLC, the Ugnu pilot area is the subject of this project. Hilcorp Alaska is conducting field pilot test at Milne Point Field to prove commerciality with Ugnu heavy oil as well as an on-going Milne viscous oil polymer flood field pilot test in the Schrader Bluff sands. The Ugnu sand heavy oil represents much of the heavy oil on Alaska’s North Slope and has potential for future development. Typical heavy oil has a viscosity of 1,000 - 10,000 centipoise, approximately akin to viscosities of honey and molasses, respectively. North Slope heavy oil is located around 3,000-foot depths and typically overlays existing fields. The project involves a reservoir simulation model and sensitivity analysis to support developmental drilling plans from a Milne Point Unit pad. Necessary geologic and reservoir properties were provided for usage in this project by Hilcorp. Production data was provided for history matching. Field geologic background was also supplied to aid in the understanding of the reservoir. The reservoir simulation model was built using Computer Modelling Group software, namely Builder and IMEX. The first model iteration contained one producer in an 8,500-foot lateral pattern. Further iterations included additional producers and injectors for waterflood and polymer flood studies. Conclusions and recommendations were drawn upon analyzing the reservoir simulation results centering around favorable production strategies, polymer flood performance, comparison to the on-going Milne viscous oil polymer flood pilot, and future polymer flood studies. Completed objectives of this project included: 1. Developing a numerical reservoir simulation model for the Ugnu MB sand in the pilot area; 2. Evaluating the productivity of horizontal wells in the Ugnu MB sand; 3. Predicting ultimate oil recovery with waterflood and polymer flood; 4. Predicting polymer utilization, polymer injected per incremental oil barrels over waterflood. |
author2 |
Dandekar, Abhijit Ning, Samson Zhang, Yin |
format |
Other/Unknown Material |
author |
Wooster, Arin J. |
spellingShingle |
Wooster, Arin J. Ugnu pilot area - simulation model and sensitivity analysis |
author_facet |
Wooster, Arin J. |
author_sort |
Wooster, Arin J. |
title |
Ugnu pilot area - simulation model and sensitivity analysis |
title_short |
Ugnu pilot area - simulation model and sensitivity analysis |
title_full |
Ugnu pilot area - simulation model and sensitivity analysis |
title_fullStr |
Ugnu pilot area - simulation model and sensitivity analysis |
title_full_unstemmed |
Ugnu pilot area - simulation model and sensitivity analysis |
title_sort |
ugnu pilot area - simulation model and sensitivity analysis |
publishDate |
2020 |
url |
http://hdl.handle.net/11122/11892 |
long_lat |
ENVELOPE(-100.852,-100.852,73.835,73.835) |
geographic |
Fairbanks Milne Point |
geographic_facet |
Fairbanks Milne Point |
genre |
north slope Alaska |
genre_facet |
north slope Alaska |
op_relation |
http://hdl.handle.net/11122/11892 Department of Petroleum Engineering |
_version_ |
1766141084638904320 |