J. Canal scite author profile

Massive chemical reactions are not expected when injecting CO(2) in siliceous sandstone reservoirs, but their performance can be challenged by small-scale reactions and other processes affecting their transport properties. We have conducted a core flooding test with a quartzarenite plug of Lower Cretaceous age representative of the secondary reservoir of the Hontomín test site. The sample, confined at high pressure, was successively injected with DIW and CO(2)-saturated DIW for 49 days while monitoring geophysical, chemical, and hydrodynamic parameters. The plug experienced little change, without evidence of secondary carbonation. However, permeability increased by a factor of 4 (0.022-0.085 mD), and the V(P)/V(S) ratio, whose change is related with microcracking, rose from ~1.68 to ~1.8. Porosity also increased (7.33-8.1%) from the beginning to the end of the experiment. Fluid/rock reactions were modeled with PHREEQC-2, and they are dominated by the dissolution of Mg-calcite. Mass balances show that ~4% of the initial carbonate was consumed. The results suggest that mineral dissolution and microcracking may have acted in a synergistic way at the beginning of the acidic flooding. However, dissolution processes concentrated in pore throats can better explain the permeability enhancement observed over longer periods of time.

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Hubs and clusters approach to unlock the development of carbon capture and storage – Case study in Spain

Sun

Alcalde

Bakhtbidar

et al. 2021

Applied Energy

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Effect of supercritical CO2 on the Corvio sandstone in a flow-thru triaxial experiment

Canal

Delgado‐Martín

Barrientos

et al. 2014

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Hydrochemical characteristics of the natural waters associated with the flooding of the Meirama open pit (A Coruñ, NW Spain)

Juncosa¹,

Vázquez²,

Falcón³

et al. 2008

Mineral. mag.

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In December, 2007, after 30 years of operations, the mine of Meirama ceased extraction of brown lignite. Since then operations have begun which will lead to the formation of a big mining lake (~2 km 2 surface and up to 180 m deep) after controlled flooding of the open pit. In the process of flooding, both surface and ground waters are involved, each with their own chemical signature. According to the information available, the diversion of surface waters towards the pit hole should lead to the formation of a water body of acceptable quality. However, an unassisted flooding process could eventually form an acidic lake.

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Characterizing Algeria tight reservoir cutting samples with Virtual Microscopy, Petrography, Mineralogy and Digital Petrophysics

Caja¹,

Santos²,

Garcia³

et al. 2019

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J. Canal

Injection of CO₂-Saturated Water through a Siliceous Sandstone Plug from the Hontomin Test Site (Spain): Experiment and Modeling

Hubs and clusters approach to unlock the development of carbon capture and storage – Case study in Spain

Effect of supercritical CO2 on the Corvio sandstone in a flow-thru triaxial experiment

Hydrochemical characteristics of the natural waters associated with the flooding of the Meirama open pit (A Coruñ, NW Spain)

Characterizing Algeria tight reservoir cutting samples with Virtual Microscopy, Petrography, Mineralogy and Digital Petrophysics

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J. Canal

Injection of CO2-Saturated Water through a Siliceous Sandstone Plug from the Hontomin Test Site (Spain): Experiment and Modeling

Hubs and clusters approach to unlock the development of carbon capture and storage – Case study in Spain

Effect of supercritical CO2 on the Corvio sandstone in a flow-thru triaxial experiment

Hydrochemical characteristics of the natural waters associated with the flooding of the Meirama open pit (A Coruñ, NW Spain)

Characterizing Algeria tight reservoir cutting samples with Virtual Microscopy, Petrography, Mineralogy and Digital Petrophysics

Contact Info

Product

Resources

About

Injection of CO₂-Saturated Water through a Siliceous Sandstone Plug from the Hontomin Test Site (Spain): Experiment and Modeling