Emulsification under different mixing conditions

Research output: Contribution to conferencePosterResearch

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Emulsification under different mixing conditions. / Arnold, Pit; Kharrat, Ahmad; Schnöpf, Barbara et al.
2019. Poster session presented at International Symposium of the Society of Core Analysts, Pau, France.

Research output: Contribution to conferencePosterResearch

Harvard

Arnold, P, Kharrat, A, Schnöpf, B & Ott, H 2019, 'Emulsification under different mixing conditions', International Symposium of the Society of Core Analysts, Pau, France, 26/08/19 - 30/08/19.

APA

Arnold, P., Kharrat, A., Schnöpf, B., & Ott, H. (2019). Emulsification under different mixing conditions. Poster session presented at International Symposium of the Society of Core Analysts, Pau, France.

Vancouver

Arnold P, Kharrat A, Schnöpf B, Ott H. Emulsification under different mixing conditions. 2019. Poster session presented at International Symposium of the Society of Core Analysts, Pau, France.

Author

Arnold, Pit ; Kharrat, Ahmad ; Schnöpf, Barbara et al. / Emulsification under different mixing conditions. Poster session presented at International Symposium of the Society of Core Analysts, Pau, France.

Bibtex - Download

@conference{b02b242d2e0d443199aa0f7d5aae6146,
title = "Emulsification under different mixing conditions",
abstract = "Chemical EOR flooding, such as in alkaline or surfactant flooding, may lead to a complex phase behavior in the pore space; depending on the exact crude and injection-water compositions, emulsion phases may form to the advantage or disadvantage of the displacement efficiency. The injection-water composition, and hence the displacements efficiency, is typically optimized by its phase behavior and by core flood experiments. However, mixing regimes of oil and injection water are substantially different for both types of tests; while in classical test-tube experiments oil and water are mixed on a macroscopic scale and likely under turbulent conditions, we assume laminar flow - respectively mixing - conditions on the pore scale in porous media flows.In our poster presentation, we ask the question of how representative are different measurements for the actual displacement process. For this, we compare classical test tube experiments, results from spinning-drop measurements and microfluidic experiments, representing substantially different mixing regimes. Furthermore, we discuss alkaline and surfactant systems, representing ideal and non-ideal systems. The poster builds on the paper SCA2019-011.",
keywords = "Emulsification, Flow Regimes",
author = "Pit Arnold and Ahmad Kharrat and Barbara Schn{\"o}pf and Holger Ott",
year = "2019",
month = aug,
day = "27",
language = "English",
note = "International Symposium of the Society of Core Analysts ; Conference date: 26-08-2019 Through 30-08-2019",

}

RIS (suitable for import to EndNote) - Download

TY - CONF

T1 - Emulsification under different mixing conditions

AU - Arnold, Pit

AU - Kharrat, Ahmad

AU - Schnöpf, Barbara

AU - Ott, Holger

PY - 2019/8/27

Y1 - 2019/8/27

N2 - Chemical EOR flooding, such as in alkaline or surfactant flooding, may lead to a complex phase behavior in the pore space; depending on the exact crude and injection-water compositions, emulsion phases may form to the advantage or disadvantage of the displacement efficiency. The injection-water composition, and hence the displacements efficiency, is typically optimized by its phase behavior and by core flood experiments. However, mixing regimes of oil and injection water are substantially different for both types of tests; while in classical test-tube experiments oil and water are mixed on a macroscopic scale and likely under turbulent conditions, we assume laminar flow - respectively mixing - conditions on the pore scale in porous media flows.In our poster presentation, we ask the question of how representative are different measurements for the actual displacement process. For this, we compare classical test tube experiments, results from spinning-drop measurements and microfluidic experiments, representing substantially different mixing regimes. Furthermore, we discuss alkaline and surfactant systems, representing ideal and non-ideal systems. The poster builds on the paper SCA2019-011.

AB - Chemical EOR flooding, such as in alkaline or surfactant flooding, may lead to a complex phase behavior in the pore space; depending on the exact crude and injection-water compositions, emulsion phases may form to the advantage or disadvantage of the displacement efficiency. The injection-water composition, and hence the displacements efficiency, is typically optimized by its phase behavior and by core flood experiments. However, mixing regimes of oil and injection water are substantially different for both types of tests; while in classical test-tube experiments oil and water are mixed on a macroscopic scale and likely under turbulent conditions, we assume laminar flow - respectively mixing - conditions on the pore scale in porous media flows.In our poster presentation, we ask the question of how representative are different measurements for the actual displacement process. For this, we compare classical test tube experiments, results from spinning-drop measurements and microfluidic experiments, representing substantially different mixing regimes. Furthermore, we discuss alkaline and surfactant systems, representing ideal and non-ideal systems. The poster builds on the paper SCA2019-011.

KW - Emulsification

KW - Flow Regimes

M3 - Poster

T2 - International Symposium of the Society of Core Analysts

Y2 - 26 August 2019 through 30 August 2019

ER -