Precipitation of sparingly soluble salts in packed sandbeds in the presence of miscible and immiscible organic substances

Pavlakou, Efstathia I.; Sygouni, Varvara; Lioliou, Maria G.; Koutsoukos, Petros G.; Paraskeva, Christakis Α.

doi:10.1002/crat.201500267

Cited by 7 publications

(7 citation statements)

References 28 publications

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“…Interestingly, the presence of n-dodecane which is water immiscible organic phase accelerated crystal growth of the salts investigated leading to pore clogging at the inlet of the sandbeds. 44 In oil field conditions, nucleation and crystal growth of calcium carbonate take place from fluid media, supersaturated with respect to calcium carbonate in contact with solid substrates of various petrological compositions. As a rule, the fluids contain hydrocarbons (water insoluble) and other organic compounds (e.g., alcohols) are freely miscible with the aqueous phase.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Recent work concerning the effect of the presence of monoethylene glycol (MEG) on the formation of sparingly soluble salts in sandbeds showed maximum consolidation due to the formation of the respective salts in the space in between the sand grains. Interestingly, the presence of n -dodecane which is water immiscible organic phase accelerated crystal growth of the salts investigated leading to pore clogging at the inlet of the sandbeds …”

Section: Introductionmentioning

confidence: 99%

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Precipitation of Calcium Carbonate in Porous Media in the Presence of n-Dodecane

Jaho

Sygouni

Rokidi

et al. 2016

Crystal Growth & Design

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The precipitation and crystal growth of sparingly soluble salts are associated with scaling problems in oil and gas extraction processes. The presence of oleic phases and/or organic solvents added as inhibitors of the gas hydrates often complicates scale formation problems. The pore structure of the oil reservoir walls is of particular interest in the process of scale formation. In the present work the effect of the presence of n-dodecane in the crystallization of CaCO3 was investigated. The study was done in simulated one-dimensional porous media made of Plexiglas, in which supersaturated solutions of various supersaturation ratios (SRinitial) with respect to calcite were introduced. The growth of the precipitated crystals was continuously monitored by optical microscopy and calcium concentration monitoring. At high SRinitial values, larger numbers of small size crystals were grown, mainly near the oil–water interface. The presence of n-dodecane resulted in the reduction of the induction time preceding the appearance of CaCO3 crystals. The measured precipitation rates of CaCO3 were higher with increasing SRinitial values. The presence of n-dodecane in the supersaturated solutions, in the respective two-phase system, favored the stabilization of the thermodynamically less stable polymorphs of CaCO3 (aragonite, vaterite). Mapping analysis of the deposits polymorphs using Raman spectroscopy showed that the precipitation was not homogeneous along the flow channel at the experimental conditions of the present work.

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Section: ■ Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Precipitation of Calcium Carbonate in Porous Media in the Presence of n-Dodecane

Jaho

Sygouni

Rokidi

et al. 2016

Crystal Growth & Design

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“…Earlier investigations of CaCO 3 precipitation in the presence of oil/water interfaces in larger plexiglass channels and in sand-packed beds showed acceleration of the nucleation in comparison with aqueous supersaturated solutions. The higher precipitation rates were attributed to the dodecane/water interfaces and to the lower value of interfacial tension, which reduced the free Gibbs energy for crystal nucleation. ,, CaCO 3 precipitation in plexiglass channels under S or conditions, yielded shorter induction times and larger number of smaller mean size crystals in comparison with the induction times and the corresponding crystallite mean size obtained at the corresponding SR values, in the absence of oil–water interfaces . Moreover, in addition to calcite, aragonite and vaterite were also identified with Raman spectroscopy, which were probably stabilized because of the varying interfacial energy conditions prevailing along the channel at the oil–water interfaces .…”

Section: Introductionmentioning

confidence: 94%

“…25 In the case of calcium carbonate precipitation in beds packed with sand, completely saturated with dodecane, the pores were clogged at the bed entrance, while along the beds, the deposition was minimal to null. 24 Larger quantities of calcium carbonate formed on surfaces of various wettabilities in the presence of oil, in comparison with the respective quantities formed from aqueous solutions under the same conditions. 26 Oil adhering onto hydrophobic surfaces inhibited crystal nucleation.…”

Section: ■ Introductionmentioning

confidence: 97%

“…Except for the kinetics of the crystallization process, the calcium carbonate polymorph stabilization is also affected by the surface wettability and the existing thermodynamic conditions . In the case of calcium carbonate precipitation in beds packed with sand, completely saturated with dodecane, the pores were clogged at the bed entrance, while along the beds, the deposition was minimal to null . Larger quantities of calcium carbonate formed on surfaces of various wettabilities in the presence of oil, in comparison with the respective quantities formed from aqueous solutions under the same conditions .…”

Section: Introductionmentioning

confidence: 99%

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Mineral Scaling in the Presence of Oil–Water Interfaces Combined with the Substrate’s Wettability Effect: From Batch to Microfluidic Experiments

Tzachristas

Natsi

Kanellopoulou

et al. 2021

Ind. Eng. Chem. Res.

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Calcium carbonate (CaCO 3 ) nucleation and growth in the presence of a liquid phase immiscible with water were investigated in batch reactors for a constant supersaturation ratio (SR) value and for various volume ratios of the oil to aqueous phase (V Ro/a ), under ambient conditions, at various stirring rates. Precipitation rates and induction times were measured, and surface energy was calculated according to the classical nucleation theory. The precipitates were characterized by scanning electron microscopy and X-ray diffraction. The induction times of crystal nucleation were shorter in the presence of the oil phase. Surface diffusion was the ratedetermining step in the precipitation process at high stirring rates. Moreover, the substrate's wettability effect was investigated in hydrophilic and hydrophobic microchips of Y-junction morphology. CaCO 3 precipitation from supersaturated solutions was studied over a range of SR values at residual oil saturation (S or ). Crystal growth was monitored using an optical microscope, and CaCO 3 polymorphs were characterized by Raman spectroscopy. Crystal nucleation was accelerated in the presence of oil/water interfaces, and growth rates of individual crystallites decreased. Hydrophobic microchips at S or favored the formation of smaller size crystals over the entire length of the microchannel. With increasing SR, the less stable polymorphs were reduced.

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Experimental Investigations on the Effect of CaCO3 Precipitation on Permeability Reduction in Single Brown Sandstone Fracture

et al. 2023

Rock Mech Rock Eng

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Precipitation of sparingly soluble salts in packed sandbeds in the presence of miscible and immiscible organic substances

Cited by 7 publications

References 28 publications

Precipitation of Calcium Carbonate in Porous Media in the Presence of n-Dodecane

Precipitation of Calcium Carbonate in Porous Media in the Presence of n-Dodecane

Mineral Scaling in the Presence of Oil–Water Interfaces Combined with the Substrate’s Wettability Effect: From Batch to Microfluidic Experiments

Experimental Investigations on the Effect of CaCO3 Precipitation on Permeability Reduction in Single Brown Sandstone Fracture

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