Day 2 Thu, February 16, 2017 2017
DOI: 10.2118/185072-ms
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Measured Crude Oil MMPs with Pure and Mixed CO2, Methane, and Ethane, and Their Relevance to Enhanced Oil Recovery from Middle Bakken and Bakken Shales

Abstract: Enhanced oil recovery (EOR) processes using CO2 in tight unconventional plays like the Bakken Formation are expected to be very different from the processes which control EOR in conventional reservoirs. During CO2 EOR in conventional reservoirs, CO2 flows through the permeable rock, and the minimum miscibility pressure (MMP) is an important operational parameter for achieving a successful "miscible" flood. In contrast, in tight fractured systems like the Bakken, CO2 flow may be dominated by fracture flow, and … Show more

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Cited by 33 publications
(41 citation statements)
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“…While the minimum miscibility pressure (MMP) between Bakken crude oil and CO 2 as well as CO 2 flow in tight Bakken rocks were studied, ,, more work needs to be done on the solubility of CO 2 in Bakken crude oil, the swelling factors of the crude oil/CO 2 system, and the crude oil viscosity reduction. In this study, five main n -alkanes (octane, decane, dodecane, tetradecane, and hexadecane) in Middle Bakken crude oil were selected, and a series of configurational-bias Monte Carlo (CBMC) , simulations were performed to study the impacts of pressure, temperature, and carbon chain length on the solubility of CO 2 in different n -alkanes and the swelling of n -alkane/CO 2 systems.…”
Section: Introductionmentioning
confidence: 99%
“…While the minimum miscibility pressure (MMP) between Bakken crude oil and CO 2 as well as CO 2 flow in tight Bakken rocks were studied, ,, more work needs to be done on the solubility of CO 2 in Bakken crude oil, the swelling factors of the crude oil/CO 2 system, and the crude oil viscosity reduction. In this study, five main n -alkanes (octane, decane, dodecane, tetradecane, and hexadecane) in Middle Bakken crude oil were selected, and a series of configurational-bias Monte Carlo (CBMC) , simulations were performed to study the impacts of pressure, temperature, and carbon chain length on the solubility of CO 2 in different n -alkanes and the swelling of n -alkane/CO 2 systems.…”
Section: Introductionmentioning
confidence: 99%
“…The previous laboratory studies represent a step change in the thinking around experimental evaluation of corebased HNP process through suggesting alternative flow geometries 7,20 , use of large-scale samples/fractures 7 and combining 'outside-of-coreholder' drilling and advanced core-based hydraulic fracturing under stress inside the coreholder to induce fractures 8 . However, the current work is unique due to (1) the proposed methodology used for creating fractures under stress and (2) its integrated experimental and simulation approach in which a compositional model is calibrated to laboratory data (porosity, matrix/relative permeability, etc.).…”
Section: Discussionmentioning
confidence: 99%
“…The majority of previous laboratory studies have been performed on core plug samples with permeability values down to the microdarcy/millidarcy range 12,13 until now, very few laboratory-based studies 8,14-17 have been conducted on tight hydrocarbon systems with permeability values down to the nanodarcy range (a common permeability range for unconventional hydrocarbon reservoirs). Further, the laboratory methodologies are primarily focused on intact ('unfractured') core plug samples using either the 'flow-through-matrix' 12,18,19 or 'flow-around-matrix' 1,20,21 schemes, which do not realistically represent the fracture-matrix contact or sequences associated with a typical cyclic solvent injection (HNP) process. While seminal works have been conducted to mimic HNP process on fractured cores 7,8 , the fractures were created outside of the coreholder either fully using saw 7 or partially using drilling bits 8 (combined with hydraulic fracturing under stress inside coreholder).…”
Section: Openmentioning
confidence: 99%
“…But in the most cases, researches assume that heavy oil is not miscible (Cuthiell et al 2006;Quoc et al 2017) because MMP in heavy oil reservoir is usually much higher than reservoir pressure. Since carbon dioxide (CO2) gas tends to be almost the best miscible gas (Hawthorne et al 2017), and it has the most interest in scientific studies, field implementation. This paper presents some problems correlated to unsuccessful CO2 MMP determination of heavy oil by slim tube test (STT), then description of novel solution for MMP determination via Huff-n-Puff test for heavy oil, intermediate results of Huff-n-Puff Test and MMP calculation via MMP correlation for heavy oil for future comparison with experimental results.…”
Section: Introductionmentioning
confidence: 99%