Novel solvent injection and conformance control technologies for fractured viscous oil reservoirs

Rankin, Kelli Margaret

24 June 2014

Fractured viscous oil resources hold great potential for continued oil production growth globally. However, many of these resources are not accessible with current commercial technologies using steam injection which limits operations to high temperatures. Several steam-solvent processes have been proposed to decrease steam usage, but they still require operating temperatures too high for many projects. There is a need for a low temperature injection strategy alternative for viscous oil production. This dissertation discusses scoping experimental work for a low temperature solvent injection strategy targeting fractured systems. The strategy combines three production mechanisms – gas-oil gravity drainage, liquid extraction, and film gravity drainage. During the initial heating period when the injected solvent is in the liquid phase, liquid extraction occurs. When the solvent is in the vapor phase, solvent-enhanced film gravity drainage occurs. A preliminary simulation of the experiments was developed to study the impact of parameter uncertainty on the model performance. Additional work on reducing uncertainty for key parameters controlling the two solvent production mechanisms will be necessary. In a natural fracture network, the solvent would not be injected uniformly throughout the reservoir. Preferential injection into the higher conductivity fracture areas would result in early breakthrough leaving unswept areas of high oil saturation. Conformance control would be necessary to divert subsequent solvent injection into the unswept zones. A variety of techniques, including polymer and silica gel treatments, have been designed to block flow through the swept zones, but all involve initiating gelation prior to injection. This dissertation also looks at a strategy that uses the salinity gradient between the injected silica nanoparticle dispersion and the in-situ formation water to trigger gelation. First, the equilibrium phase behavior of silica dispersions as a function of sodium chloride and nanoparticle concentration and temperature was determined. The dispersions exhibited three phases – a clear, stable dispersion; gel; and a viscous, unstable dispersion. The gelation time was found to decrease exponentially as a function of silica concentration, salinity, and temperature. During core flood tests under matrix and fracture injection, the in-situ formed gels were shown to provide sufficient conductivity reduction even at low nanoparticle concentration. / text

Solvent injection

Conformance control

Viscous oil

Heavy oil

Bitumen

Fracture

Nanoparticle

Experimental investigations in improving the VAPEX performance for recovery of heavy oil and bitumen

Rezaei, Nima

23 September 2010

The process of vapor extraction (VAPEX) is a recovery process which targets the heavy oil and bitumen resources. Owing to high viscosity values for these unconventional types of oil, the recovery processes in such reserves are still challenging. The unconventional oil recovery processes usually include a mechanism for reducing the oil viscosity by means of heat, solvent, or both. The process of VAPEX utilizes the injection of a light hydrocarbon solvent into a reservoir for recovering the viscous oil in place by diffusing into the oil and by providing sufficient mobility to the oil upon dilution. Although this process offers a variety of advantages over the alternative thermal recovery processes such as SAGD or CSS, it suffers from two major drawbacks. First, the oil production rates obtained in the VAPEX process are considerably lower than those obtained in the thermal processes. Second, the solvent cost is considerably high. We tried to tackle these two problems during this research and we searched for potentials for an improved VAPEX process. Three potentially improved occurrences of a VAPEX project were found when: 1) the injected solvent was superheated, 2) the wettability of media was altered to oil-wet, and 3) the vugs were distributed in the porous media. Warm VAPEX process is introduced in which the VAPEX process is thermally augmented through superheating the solvent vapor. An attractive feature of this process is the capability of the solvent in being able to condense at the bitumen-solvent interface, which provides the opportunity for the bitumen to be upgraded in-situ through asphaltene precipitation. The asphaltene precipitation was not observed during the conventional vapor extraction process and was only observed during the warm VAPEX process. Upon a moderate level of superheating, the production rate of bitumen was sufficiently improved while the solvent content of the produced oil was significantly decreased as a result of decreased solubility of solvent in the oil at elevated temperatures. Therefore, more oil was produced at lower costs. The warm VAPEX experiments were conducted at 4 temperature levels in high and low permeability media using Cold Lake bitumen and Lloydminster heavy oil blend, n-pentane was used as solvent. The warm VAPEX process was found to be more effective for Cold Lake bitumen and for less permeable media. The potential of in-situ upgrading decreased when the level of superheating increased. The second potential for an improved VAPEX process obtained when the wettability of porous medium was altered to oil-wet conditions. Although this wettability condition is harmful to steam-based recovery processes, such as SAGD, it becomes beneficial to VAPEX. For the application of VAPEX process in fractionally wet media the wettability of glass beads was altered to oil-wet conditions through silylation process, and the VAPEX experiments were conducted in a random packing of water-wet and oil-wet beads of similar size at 7 different compositions. A substantial increase in the oil production rate was observed in a completely oil-wet medium, compared to the water-wet medium. By increasing the fraction of oil-wet beads in the packing up to a critical composition, the production rate of live oil increased linearly with the increase in the fraction of oil-wet beads in the packing during the vapor extraction process. Beyond this critical composition, however, the production rate of live oil did not change significantly with further increase in the fraction of the oil-wet beads in the randomly packed medium. Vugs were also found to be beneficial to the production performance of the VAPEX process. The presence of vugs was investigated in synthesized vugular media at 4 different levels of vuggy-to-total pore volume ratios. The performance of vugular media was compared to that of the homogeneous sintered media. The vugs facilitated the production of oil during the VAPEX process by providing flow communication between the vugs and the surrounding matrix, and therefore, by providing a local high permeability pathways towards the production well. A peak in the oil production rate was observed whenever a series of vugs were simultaneously invaded by the solvent vapor. The overall production rate of oil was higher in vuggy media compared to a homogeneous media at the same overall porosity and permeability. Furthermore, the magnitude of residual oil saturation left behind was also slightly lower in vuggy medium because the vugs were perfectly drained. Finally, a constant rate air injection (CRAI) porosimetry method was developed for characterization of vugs in a vugular media. This method was successfully tested in different synthetic vugular media, and the results illustrated higher accuracy in CRAI porosimetry method compared to constant rate mercury porosimetry. CRAI porosimetry method was also employed for identification of higher permeability regions embedded in a matrix of lower permeability. The analysis of a typical porosimetry signal was also modified.

Vapor extraction

VAPEX

Enhanced oil recovery

Heavy oil and bitumen

Chemical Engineering

Extraction of bitumen from Athabasca oil sand slurry using supercritical carbon Dioxide

La, Helen

Unknown Date

No description available.

Bitumen

Athabasca oil sand

Slurry extraction

Supercritical carbon dioxide extraction

Supercritical fluid extraction

Adsorption of selected organic solvents on clay & sand by inverse gas chromatography

El-Thaher, Nayef

Unknown Date

No description available.

inverse gas chromatography

heat of adsorption

kaolinite

illite

smectite

bitumen

oil sands

Computer vision based sensors for chemical processes

Jampana, Phanindra varma

Unknown Date

No description available.

Computer vision

Bitumen-froth interface detection

Particle filters

X-ray view cell images

Effect of oil sands slurry conditioning on bitumen recovery from oil sands ores

Qiu, Longhui

Unknown Date

No description available.

Oil sands

Slurry conditioning effect

Denver flotation cell

Bitumen recovery

Experimental and Numerical Studies on Multiple Well Pairs SAGD Performance

Wang, Xinkui

Unknown Date

No description available.

SAGD Process

Experimentation

Simulation

Operation Strategy

Multiple Well Pairs

Performance Enhancement

Bitumen Recovery

Steam

The Role of Sulfur during the Cracking of n-Hexadecane and Cold Lake Bitumen with alpha-Fe2O3 and Steam

Olson, Blake J

Unknown Date

No description available.

Cold Lake Bitumen

Coke

Hexadecane

Liquid phase cracking

Alpha-Fe2O3

Steam

Dismantling dependency, disarming a boom: petro-politics and the staples state in an era of climate crisis

Noble, Paul

29 April 2015

This thesis has two central objectives. First, drawing on both the insights contained in the staples approach and the frames and narratives mobilized by contemporary political actors, it attempts to provide insight into the political-economic drivers underpinning the large and growing political influence of the Canadian oil sands. Second, it assesses the effects of this influence on Canadian society and the Canadian state. This influence is observable materially, as with the federal government’s oil sands-oriented policy changes and mobilization of the state security apparatus in its defense, and in less concrete ways, as with the rise of discourses conflating national interest with continued oil sands expansion. This thesis concludes that the effects of this influence have been negative and profound, and in an era of climate crisis, alternatives to Canada’s dominant political economic trends must be urgently sought. / Graduate / paulnoblegreen@gmail.com

Canada

Canadian Political Economy

Bitumen

Oil sands

Tar sands

Pipeline

Staples

Extraction of bitumen from Athabasca oil sand slurry using supercritical carbon Dioxide

La, Helen

06 1900

Extraction of hydrocarbons from an Athabasca oil sand slurry were conducted using supercritical carbon dioxide (SC-CO2). The oil sand was slurried to a 1:1 ratio with water and experiments were conducted using a laboratory-scale batch supercritical fluid extraction (SFE) system. Preliminary tests revealed the importance of mixing rate on hydrocarbon yields. A 2^3 factorial experiment was then conducted to test the effect of temperature, pressure, and modifier (toluene) addition on hydrocarbon extraction yield. When toluene was absent, hydrocarbon extraction yields were greater at the high temperature (60°C); however, when toluene was present, the combination of low temperature (31°C) and high pressure (24.1MPa) provided greater extraction yields. The experiment that produced the highest cumulative hydrocarbon extraction yield was analyzed by GC-FID for product-quality. Two composite samples and one time series sample revealed a carbon distribution range of the extract centering on C25, corresponding to the light gas oil range as classified in petroleum fractions. / Environmental Science

Bitumen

Athabasca oil sand

Slurry extraction

Supercritical carbon dioxide extraction

Supercritical fluid extraction