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Full-Text Articles in Physical Sciences and Mathematics
Bpop Prospectus, University Of North Dakota. Energy And Environmental Research Center
Bpop Prospectus, University Of North Dakota. Energy And Environmental Research Center
EERC Brochures and Fact Sheets
Prospectus for Bakken Production Optimization Program (BPOP) 4.0.
Data-Driven Analysis For Causality Of Parent–Child Interactions In The Bakken, Kyoung Min, Alexander V. Chakhmakhchev, Xue Yu, Nicholas A. Azzolina, Darren D. Schmidt, Bethany A. Kurz, James A. Sorensen
Data-Driven Analysis For Causality Of Parent–Child Interactions In The Bakken, Kyoung Min, Alexander V. Chakhmakhchev, Xue Yu, Nicholas A. Azzolina, Darren D. Schmidt, Bethany A. Kurz, James A. Sorensen
EERC Publications
This study 1) evaluates the effect of parent–child interaction on productivity by assessing depletion effects and the impact of different completion designs and 2) investigates how refracturing strategies affect parent–child interactions.
Refracturing In The Bakken – An Analysis Of Data From Across North Dakota, Chantsalmaa Dalkhaa, Nicholas A. Azzolina, Alexander V. Chakhmakhchev, Bethany A. Kurz, James A. Sorensen, Charles D. Gorecki, John A. Harju
Refracturing In The Bakken – An Analysis Of Data From Across North Dakota, Chantsalmaa Dalkhaa, Nicholas A. Azzolina, Alexander V. Chakhmakhchev, Bethany A. Kurz, James A. Sorensen, Charles D. Gorecki, John A. Harju
EERC Publications
This presentation will summarize work conducted by the Energy & Environmental Research Center, in close coordination with the state of North Dakota and several Williston Basin oil and gas operating companies through a research program called the Bakken Production and Optimization Program (BPOP), and will cover 1) a review of the wells that have been refractured in the North Dakota portion of the Bakken petroleum system (BPS), 2) an evaluation of production performance of the refractured wells, 3) an assessment of refracturing economics, and 4) an assessment of the potential economic impact of a broad refracturing program applied throughout the …
Unconventional Rock Requires Unconventional Analysis: Methods For Characterization, Shane K. Butler, Alexander Azenkeng, Blaise A.F. Mibeck, Bethany A. Kurz, Kurt E. Eylands
Unconventional Rock Requires Unconventional Analysis: Methods For Characterization, Shane K. Butler, Alexander Azenkeng, Blaise A.F. Mibeck, Bethany A. Kurz, Kurt E. Eylands
EERC Publications
Advanced image analysis techniques were applied to better understand and quantify factors that could affect CO2 storage in the Bakken Formation, with an ultimate goal of improved method development to estimate CO2 storage potential of unconventional reservoirs.
Extraction Of Oil From The Bakken Shales With Supercritical Co2, Lu Jin, Steven B. Hawthorne, James A. Sorensen, Bethany A. Kurz, Steven A. Smith, Loreal V. Heebink, Nicholas W. Bosshart, José A. Torres, Chantsalmaa Dalkhaa, Charles D. Gorecki, Edward N. Steadman, John A. Harju
Extraction Of Oil From The Bakken Shales With Supercritical Co2, Lu Jin, Steven B. Hawthorne, James A. Sorensen, Bethany A. Kurz, Steven A. Smith, Loreal V. Heebink, Nicholas W. Bosshart, José A. Torres, Chantsalmaa Dalkhaa, Charles D. Gorecki, Edward N. Steadman, John A. Harju
EERC Publications
Results from 20 samples showed that supercritical CO2 enables extraction of a considerable portion (15%–65%) of the hydrocarbons from the Bakken shales within 24 hours. The results may be used to improve modeling and forecasting the effects of CO2 enhanced oil recovery (EOR) and suggest the possibility for increasing ultimate recovery, and possibly CO2 storage, in some areas of the Bakken Formation.