Experimental Investigation of Foam Flooding Using Anionic and Nonionic Surfactants: A Screening Scenario to Assess the Effects of Salinity and pH on Foam Stability and Foam Height

Emami, Hassan; Tanha, Abbas Ayatizadeh; Manshad, Abbas Khaksar; Mohammadi, Amir H.

doi:10.1021/acsomega.2c00314

Cited by 26 publications

(8 citation statements)

References 70 publications

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“…Foam flooding is a crucial mechanism of EOR that relies on the generation and utilization of foam using surfactants . Natural surfactants, with their unique foaming characteristics, have garnered attention for their potential in EOR applications.…”

Section: Role Of Natural Surfactant In Eormentioning

confidence: 99%

Review of the Application of Natural Surfactants in Enhanced Oil Recovery: State-of-the-Art and Perspectives

2023

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Injecting surfactant by means of chemical enhanced oil recovery (cEOR) has acquired predominant attention in improving oil recovery by changing either fluid/rock and/or fluid/fluid interaction due to ion-pair forming and/or surfactant adsorption on the rock surface. As the main surfactant role in EOR, IFT reduction refers to adsorbing of surfactant molecules on the residual oil/water interface, which causes an increase in capillary number; as a result, trapped oil drops in porous media get free and start to move through the pore space toward the production well. The toxic nature, excessive cost, and environmental issues are the obvious limitations in applying the chemical surfactants in EOR, hence, looking for a less-expensive and eco-friendly type of surfactant has become a significant task to researchers to study the natural surfactant as an alternative to chemical surfactants. A deep understanding about the classification of natural surfactants, fabrication methods, and the difference between each class is crucial to propose a new plant-derived natural surfactant. This study tried to review up-to-date published studies related to the natural surfactant types and prepare a comprehensive catalog respective to natural surfactant that helps researchers with regard to future work in natural surfactant application in EOR. In addition, comparisons of each class performance and the impact of nanoparticles and the salinity on them in reducing IFT, altering wettability, and improving the recovery factor have been investigated. It had been concluded that natural surfactant can be produced from different plant parts (leaf, root, steam, fruit, and seed) based on the fabrication method. Natural surfactants synthesized from seed oil are stronger, compared with those extracted from the plant part (i.e., IFT reduction by 98%). Generally, injecting natural surfactants expressed low to high performance in improving the ultimate oil recovery from 2% to 40% original oil in place (OOIP).

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Section: Role Of Natural Surfactant In Eormentioning

confidence: 99%

Review of the Application of Natural Surfactants in Enhanced Oil Recovery: State-of-the-Art and Perspectives

2023

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“…40,41 Surfactants, also known as surface-active agents, provide several benefits that include reducing interfacial tension (IFT), 42,43 modifying rock wettability, 44,45 forming emulsions, 46 and controlling mobility. 47 A microemulsion can form when a surfactant solution, oil, and salt are present under specific conditions that make it thermodynamically stable. 48 Winsor presented a classification system for microemulsions based on their phase behavior, with three distinct types identified as type I, type II, and type III.…”

Section: Introductionmentioning

confidence: 99%

“…Surfactants, also known as surface-active agents, provide several benefits that include reducing interfacial tension (IFT), , modifying rock wettability, , forming emulsions, and controlling mobility . A microemulsion can form when a surfactant solution, oil, and salt are present under specific conditions that make it thermodynamically stable .…”

Section: Introductionmentioning

confidence: 99%

Sulfonamide Derivatives as Novel Surfactant/Alkaline Flooding Processes for Improving Oil Recovery

Soliman,

ElSahaa,

Elsaeed

et al. 2023

ACS Omega

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Over time, oil consumption has increased along with a continuous demand for petroleum products that require finding ways to increase hydrocarbon production more economically and effectively. So, enhanced oil recovery technologies are believed to be very promising and will serve as a key to meeting the future energy demand. This paper aims to introduce an innovative method to boost the EOR by using two novel types of surfactants synthesized from sulfonamide derivatives. Types I and II surfactants were analyzed using Fourier transform infrared spectroscopy, and their characterization was further performed using 1H NMR and 13C NMR spectroscopy. Additionally, the evaluation of these surfactants included interfacial tension measurements at concentrations up to 0.9 wt %. The combination of types I and II surfactants with alkaline (NaOH) was also investigated by the measurements of interfacial tension. A series of coreflood and sandpack tests under high-salinity conditions were carried out to assess the effects of a surfactant alone and alkaline–surfactant as a combination on improving oil recovery. The rock wettability was evaluated using relative permeability saturation curves, and the oil displacement efficiency was determined using fractional flow curves. The coreflood results demonstrated that alkaline–surfactant flooding with the chemical formula 0.2 wt % surfactant type II plus 0.5 wt % NaOH achieved a higher oil recovery of 74% OOIP compared to surfactant flooding with the chemical formula 0.5 wt % surfactant type II (64% OOIP) and waterflooding (saline solution with a 35,000 ppm salinity: 48% OOIP). Moreover, the experimental results showed that under both core and sandpack flood conditions, there was a noticeable reduction in oil–water interfacial tension, a change in rock wettability to more water-wet, and higher efficiency of oil displacement when alkaline was added to the surfactant. Based on current research, the alkaline–surfactant formulation is strongly recommended for chemical flooding because of its high efficacy and relatively low cost.

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“…The aim of enhanced oil recovery (EOR) is to mobilize oil left in the reservoir after primary recovery (depletion by pressure difference solely) and water flooding. Gas injection is one of the most applied techniques in EOR. , Gas injection often suffered from small volumetric (areal and vertical) sweep efficiency, resulting in the gas contacting only a small fraction of the oil present in the reservoir. − Due to its low viscosity, injected gas flows through the paths of least resistance in the reservoir, leaving low-permeable zones reservoir. On the other hand, gas and surfactant co-injection creates foam that leads to far larger mobility reduction, thus enhancing mobility control. , …”

Section: Introductionmentioning

confidence: 99%

“… 1 , 2 Gas injection often suffered from small volumetric (areal and vertical) sweep efficiency, resulting in the gas contacting only a small fraction of the oil present in the reservoir. 3 − 5 Due to its low viscosity, injected gas flows through the paths of least resistance in the reservoir, leaving low-permeable zones reservoir. On the other hand, gas and surfactant co-injection creates foam that leads to far larger mobility reduction, thus enhancing mobility control.…”

Section: Introductionmentioning

confidence: 99%

Investigation of Foam Flooding Assisted by Non-Newtonian and Novel Newtonian Viscosifying Agents for Enhanced Oil Recovery

Hosseini-Nasab

Rezaee

Taal³

et al. 2022

ACS Omega

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One of the main reasons for foam flooding enhanced oil recovery (EOR) is mobilizing oil left in the reservoir after primary recovery (depletion by pressure difference solely) and water flooding. However, expanding the infrastructure for certain foam EOR projects might be necessary as more wells are required, or a different well pattern is necessary. This study aims to study the effect of Newtonian and non-Newtonian viscosifying agents to assist foam flooding under the porous medium condition and to compare the results. Furthermore, this paper attempts to investigate the use of glycerol as a novel promising economic and ecological candidate instead of polymers. The shear rate inside the core was calculated based on the literature, which was combined with viscometric measurements in order to form four pairs of equal apparent viscosity. The differences and overlap within the core flooding experiments with foam generated by Newtonian and non-Newtonian fluids were observed by examining the mobility reduction factor under transient and steady-state conditions and by calculating the gas fraction present in the core. It was concluded that glycerol in core flood experiments could reach the same mobility reduction factor of about 1600 as polymer solutions with the same apparent viscosity, as long as the viscosity of the injected solution is reasonably low. Moreover, glycerol even reached the maximum mobility reduction factor faster than the foam generated by the polymer solution.

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Experimental Investigation of Foam Flooding Using Anionic and Nonionic Surfactants: A Screening Scenario to Assess the Effects of Salinity and pH on Foam Stability and Foam Height

Cited by 26 publications

References 70 publications

Review of the Application of Natural Surfactants in Enhanced Oil Recovery: State-of-the-Art and Perspectives

Review of the Application of Natural Surfactants in Enhanced Oil Recovery: State-of-the-Art and Perspectives

Sulfonamide Derivatives as Novel Surfactant/Alkaline Flooding Processes for Improving Oil Recovery

Investigation of Foam Flooding Assisted by Non-Newtonian and Novel Newtonian Viscosifying Agents for Enhanced Oil Recovery

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