Experimental study of the effect of carbonated brine on wettability and oil displacement for EOR application in the Brazilian Pre-Salt reservoirs

Drexler, Santiago; Silveira, Thais M. G.; Belli, Gabriel De; Couto, Paulo

doi:10.1080/15567036.2019.1604877

Cited by 22 publications

(13 citation statements)

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“…A review of worldwide CO2 flooding field projects indicates incremental recoveries ranging from 5 to 20% of the original oil in place (OOIP) (Sheng, 2013). Viscosity reductions and oil swelling are the main effects that enhance oil recovery, with wettability alterations and mineral dissolution also contributing to oil displacement (Drexler et al, 2019). CO2 injection can cause dramatic changes in the fluid-fluid and rock-fluid interactions, such as reductions in the pH, reducing oil viscosity and enhanced rock dissolution.…”

Section: Introductionmentioning

confidence: 99%

“…For example, Nowrouzi et al (2020) and Seyyedi et al (2020) observed higher porosity and permeability values after injection. However, Drexler et al (2019) noted a reduction in weight, porosity, pore volume and permeability of the sample after injecting carbonated water (desulphated seawater saturated with CO2), while Abbaszadeh et al (2016) reported a reduction in porosity and the sample's weight, but an increase in the permeability. By contrast, Wang et al (2019) observed almost no changes in the porosity but a significantly lower permeability.…”

Section: Introductionmentioning

confidence: 99%

“…Most studies noted the importance of rock dissolution as such, and the transport and deposition of fine particles (e.g., Jia, 2019;Mahzari et al, 2019). Grigg and Svec (2003), Drexler et al (2019) and Mahzari et al (2019) showed microCT images of a carbonate rock sample after injection of a brine rich in CO2. While these studies observed localized calcite dissolution at the inlet of the sample, they did not explain the occurred phenomena at the pore scale.…”

Section: Introductionmentioning

confidence: 99%

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Effects of carbonated water injection on the pore system of a carbonate rock (coquina)

Silveira

Hoerlle

Rocha

et al. 2022

Journal of Hydrology and Hydromechanics

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CO2 injection is a well-known Enhanced Oil Recovery (EOR) technique that has been used for years to improve oil extraction from carbonate rock and other oil reservoirs. Optimal functioning of CO2 injection requires a thorough understanding of how this method affects the petrophysical properties of the rocks. We evaluated pore-scale changes in these properties, notably porosity and absolute permeability, following injection of CO2-saturated water in two coquina outcrop samples from the Morro do Chaves Formation in Brazil. The coquinas are close analogues of Pre-salt oil reservoirs off the coast of southern Brazil. The effects of carbonated water injection were evaluated using a series of experimental and numerical steps before and after coreflooding: cleaning, basic petrophysics, microtomography (microCT) imaging, nuclear magnetic resonance (NMR) analyses, and pore network modeling (PNM). Our study was motivated by an earlier experiment which did not show the development of a wormhole in the center of the sample, with a concomitant increase in permeability of the coquina as often noted in the literature. We instead observed a substantial decrease in the absolute permeability (between 71 and 77%), but with little effect on the porosity and no wormhole formation. While all tests were carried out on both samples, here we present a comprehensive analysis for one of the samples to illustrate changes at the pore network level. Different techniques were used for the pore-scale analyses, including pore network modeling using PoreStudio, and software developed by the authors to enable a statistical analysis of the pore network. Results provided much insight in how injected carbonated water affects the pore network of carbonate rocks.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effects of carbonated water injection on the pore system of a carbonate rock (coquina)

Silveira

Hoerlle

Rocha

et al. 2022

Journal of Hydrology and Hydromechanics

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“…With the increasing consumption of fossil fuel energy, CO 2 emissions continue to rise, which poses a serious threat to the global climatic and ecological environment [1][2][3]. The carbon capture and storage (CCS) technology has become an internationally recognized and critical emission reduction strategy [4][5][6].…”

Section: Introductionmentioning

confidence: 99%

Experimental Research on the Law of Energy Conversion during CO2 Sequestration in Coal

2021

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CO2 sequestration in coal is mainly attributed to adsorption. The adsorption experiments of CO2 were conducted at injection pressures ranging from 1 to 3 MPa on coal samples with five kinds of particle sizes. The fitting degree of four classical adsorption models to experimental adsorption data was systematically compared. The adsorption properties of CO2 were comprehensively discussed. The temperature changes of coal samples at different positions during CO2 adsorption were measured by using the improved adsorption tank, and then the energy conversion law was obtained. The results showed increasing gas injection pressure can effectively increase the adsorption capacity of CO2 on coal samples. The BET equation had the best fitting accuracy for CO2 adsorption on various size coal samples. There was a significant exothermic effect during CO2 adsorption and storage. With the rise of injection pressure, the peak value of the rising temperature of coal samples increased, but the change rate decreased. The maximum temperature rise of coal samples was up to 13.6 °C at 3 MPa, which should be of great concern for the prevention of coal spontaneous combustion. During the sequestration process of CO2, the adsorption resulted in a decrease in coal surface free energy and then partial conversion to heat, leading to the rise of coal temperature. In addition, the CO2 adsorption on the pore surface caused the expansion and deformation of coal.

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“…Additionally, basins in offshore Angola, Gabon, Cameroon, Democratic Republic of Congo, Equatorial Guinea and Namibia have been proposed as analogous prospects to the Brazilian Pre-Salt with outstanding potential for hydrocarbon reserves (Koch et al, 2013;Jameson et al, 2011). The formation brines in fields from South Atlantic pre-salt reservoirs can have TDS values over 150 000 mg/L (Drexler et al, 2019(Drexler et al, , 2020. Given the economic relevance of these reservoirs, it is important to study an adequate and efficient method for measuring the TDS of their brines, which are outside the range of the correlations present in the literature.…”

Section: Introductionmentioning

confidence: 99%

Correlations between TDS and electrical conductivity for high-salinity formation brines characteristic of South Atlantic pre-salt basins

Rebello

Siepman

Drexler

2020

WSA

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Total dissolved solids (TDS) is an important property in the characterization of natural waters for diversified applications, such as in geochemistry and the petroleum industry. Under appropriate circumstances, the determination of this parameter through correlations with the electrical conductivity (EC) of aqueous systems yields considerable advantages over the gravimetric method. However, the development of empirical equations correlating TDS and EC is still required due to the physical-chemical complexity of charge transport in multicomponent natural waters. Most existing correlations were built considering systems in the lower or medium salinity range. In this context, this research aims to provide experimental correlations between TDS and EC in a broad concentration range for high salinity formation brines characteristic of the pre-salt reservoirs. It contributes to filling a gap in the literature for geochemical systems of this nature. Moreover, correlations were also obtained for a concentrated desulphated seawater and an aqueous sodium chloride solution in the same salinity range. For all aqueous solutions, the polynomial fittings of degree greater than one fit the experimental data better compared to both linear and exponential equations. In addition, the solutions with higher concentration of divalent ions had lower EC than the solutions dominated by monovalent ions with the same ionic strength. This evidences the effect of ion pairing on the EC, particularly in solutions of high ionic strength. Therefore, the use of a general correlation to represent solutions with dramatic variations in chemical composition carries substantial error, particularly in the high salinity range. Thus, a specific correlation must be developed to represent brines with similar composition.

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Experimental study of the effect of carbonated brine on wettability and oil displacement for EOR application in the Brazilian Pre-Salt reservoirs

Cited by 22 publications

References 59 publications

Effects of carbonated water injection on the pore system of a carbonate rock (coquina)

Effects of carbonated water injection on the pore system of a carbonate rock (coquina)

Experimental Research on the Law of Energy Conversion during CO2 Sequestration in Coal

Correlations between TDS and electrical conductivity for high-salinity formation brines characteristic of South Atlantic pre-salt basins

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