Salt precipitation due to supercritical gas injection: I. Capillary-driven flow in unimodal sandstone

Ott, Holger; Roels, Saskia M.; Kloe, K. de

doi:10.1016/j.ijggc.2015.01.005

Cited by 101 publications

(77 citation statements)

References 29 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…At the same time, however, evaporation of trapped water may provide more space for CO 2 and thereby increase the relative permeability. Therefore, to assess the injectivity loss properly, it is required to measure the combined effect of these two mechanisms (Ott et al, 2015;Roels et al, 2014). The review of the studies presented in Table 1 shows that only two sets of experimental data measuring the effective permeability are available (Ott et al, 2011(Ott et al, , 2015(Ott et al, , 2013Wang et al, 2010Wang et al, , 2009, while the rest of the studies has focused only on finding an alteration relationship between porosity and permeability.…”

Section: Is Injectivity Reduced Due To Salt Precipitation?mentioning

confidence: 99%

“…Ott et al (2015) performed core flooding of dry scCO 2 on brine saturated Berea sandstone with an absolute permeability of 500 mD and 22% porosity, and with two different injection rates (2.2. and 4.4 ml/min). They quantified the salt precipitation using X-ray tomography.…”

Section: Is Injectivity Reduced Due To Salt Precipitation?mentioning

confidence: 99%

“…Still, a major uncertainty will exist in these assessments, causing CO 2 injection in saline aquifers to stand apart from traditional experiences in the field of petroleum exploration. Salt precipitation induced by brine vaporization is a distinct phenomenon in case of dry CO 2 injection and might severely impact the injectivity (Grude et al, 2014;Muller et al, 2009;Ott et al, 2015;Peysson et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Salt precipitation during CO 2 storage—A review

Miri

Hellevang

2016

International Journal of Greenhouse Gas Control

175

127

View full text Add to dashboard Cite

Section: Is Injectivity Reduced Due To Salt Precipitation?mentioning

confidence: 99%

Section: Is Injectivity Reduced Due To Salt Precipitation?mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Salt precipitation during CO 2 storage—A review

Miri

Hellevang

2016

International Journal of Greenhouse Gas Control

175

127

View full text Add to dashboard Cite

“…Once the salt concentration reaches its solubility limit owing to the evaporation, salt will precipitate out of solution [36]. The precipitated salt is then able to imbibe water from the flooding front and an effective capillary backflow is established (Figure 2.9b) once the capillary pressure gradient overcomes the injection pressure gradient [1,47]. The water being drawn to the evaporation front leads to further evaporation and increase in salt concentration in the dry-out zone.…”

Section: Physics Of Salt Precipitationmentioning

confidence: 99%

A Theoretical Study of the Effect of Salt Precipitation on CO2 Injectivity

Shaibu

Sokama‐Neuyam

Ursin

2018

SPE International Conference and Exhibition on Formation Damage Control

View full text Add to dashboard Cite

Adequate well injectivity is required to successfully inject large volumes of CO2 through a minimum number of wells. Brine vaporization in the wellbore vicinity has been identified as a major CO2 injectivity impairment mechanism especially in deep saline reservoirs. A bundle-of-tubes model was developed to investigate basic mechanisms of salt precipitation and to quantify injectivity loss induced by precipitated salts during CO2 injection into saline formations. A Berea sandstone rock was reconstructed with a bundle-of-tubes model. A correlation was developed to estimate the solid salt saturation in the pores based on the properties of the aqueous phase. A parameter capable of tracking the development of the dry-out zone was introduced to model the distribution of salt in the pores. A relative injectivity change index was then used to quantify injectivity impairment induced by precipitated salts. A tortuosity factor was incorporated to account for the tortuous path taken by fluids in porous media. A sensitivity study was performed to assess the effects of parameters such as brine salinity, initial permeability, injection flowrate and porosity on injectivity loss. The model can reproduce some experimental results of drying of brine-saturated sandstone cores by supercritical CO2. A sensitivity study of the parameters affecting injectivity show that; (1) salt precipitation occurs in the dry-out zone where most of the irreducible water in the trapped brine has evaporated, (2) increasing brine salinity has adverse effect on injectivity, (3) salt precipitation affects permeability more than porosity and (4) in rocks with high initial permeability, salt precipitation is minimal. These findings are important for a successful CCS project since CO2 injectivity controls essential aspects of storage which are the rate, the quantity and length of time for CO2 injection into a formation.

show abstract

“…Ott et al conducted a core scale drainage test to compare the salt precipitation of the core with two different pore structures, they found that the porous rock is more prone to form salt precipitation than singlepore rock, and they believe that the impairment of injectivity depends on the mobility of the brine phase, which was based on several core flood experiments [4]. By comparing different CO 2 injection rates ( CO 2 ), Peysson et al and Ott et al found that capillary backflow is almost negligible at higher CO 2 injection rates and that the appearance of salt precipitation is very limited [5][6][7]. Tang et al used brine with different salinities ( NaCl ) to carry out a CO 2 flood experiment, and they found that NaCl has a significant impact on injectivity loss [8].…”

Section: Introductionmentioning

confidence: 99%

Global Sensitivity Analysis to Assess Salt Precipitation for CO₂ Geological Storage in Deep Saline Aquifers

Wang

Ren

et al. 2017

Geofluids

View full text Add to dashboard Cite

Salt precipitation is generated near the injection well when dry supercritical carbon dioxide (scCO 2 ) is injected into saline aquifers, and it can seriously impair the CO 2 injectivity of the well. We used solid saturation ( ) to map CO 2 injectivity. was used as the response variable for the sensitivity analysis, and the input variables included the CO 2 injection rate ( CO 2 ), salinity of the aquifer ( NaCl ), empirical parameter , air entry pressure ( 0 ), maximum capillary pressure ( max ), and liquid residual saturation ( plr and clr ). Global sensitivity analysis methods, namely, the Morris method and Sobol method, were used. A significant increase in was observed near the injection well, and the results of the two methods were similar: NaCl had the greatest effect on ; the effect of 0 and max on was negligible. On the other hand, with these two methods, CO 2 had various effects on : CO 2 had a large effect on in the Morris method, but it had little effect on in the Sobol method. We also found that a low CO 2 had a profound effect on but that a high CO 2 had almost no effect on the value.

show abstract

Salt precipitation due to supercritical gas injection: I. Capillary-driven flow in unimodal sandstone

Cited by 101 publications

References 29 publications

Salt precipitation during CO 2 storage—A review

Salt precipitation during CO 2 storage—A review

A Theoretical Study of the Effect of Salt Precipitation on CO2 Injectivity

Global Sensitivity Analysis to Assess Salt Precipitation for CO₂ Geological Storage in Deep Saline Aquifers

Contact Info

Product

Resources

About

Salt precipitation due to supercritical gas injection: I. Capillary-driven flow in unimodal sandstone

Cited by 101 publications

References 29 publications

Salt precipitation during CO 2 storage—A review

Salt precipitation during CO 2 storage—A review

A Theoretical Study of the Effect of Salt Precipitation on CO2 Injectivity

Global Sensitivity Analysis to Assess Salt Precipitation for CO2 Geological Storage in Deep Saline Aquifers

Contact Info

Product

Resources

About

Global Sensitivity Analysis to Assess Salt Precipitation for CO₂ Geological Storage in Deep Saline Aquifers