The effect of organic acids and salinity on the interfacial tension of n-decane/ water systems

Amr M. Sayed; Kristian B. Olesen; Abdul Sattar Alkahala; Theis I. Sølling; Nayef Alyafei

doi:10.1016/j.petrol.2018.10.097

The effect of organic acids and salinity on the interfacial tension of n-decane/ water systems

Amr M. Sayed, Kristian B. Olesen, Abdul Sattar Alkahala, Theis I. Sølling, Nayef Alyafei

Department of Chemistry

16 Citations (Scopus)

Abstract

We have investigated how a homologous series of straight-chain carboxylic acids with a cyclohexyl substituent in the opposite end of the functional groups impacts the interfacial tension (IFT) between decane (oil) and water. The employed method was the pendant droplet technique. We do not observe any striking effect of expanding the chain length: all acids reduced the IFT compared to water by approximately 20 mN/m. Additionally, the effect of changing the chemical character and the concentration of the cation in a series of brines where studied too, and again we do not observe a significant IFT impact. The only modification that significantly reduces the IFT is the modification of the anion from chloride to carbonate, a change that results in an increased pH and thus a transformation of the constituent acids from their neutral to their anionic form. This is expected to result in a reduced IFT because of the polar end of the surfactant is even more polar which alleviates the stress on the surface.

Original language	English
Journal	Journal of Petroleum Science and Engineering
Volume	173
Pages (from-to)	1047-1052
ISSN	0920-4105
DOIs	https://doi.org/10.1016/j.petrol.2018.10.097
Publication status	Published - Feb 2019

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title = "The effect of organic acids and salinity on the interfacial tension of n-decane/ water systems",

abstract = "We have investigated how a homologous series of straight-chain carboxylic acids with a cyclohexyl substituent in the opposite end of the functional groups impacts the interfacial tension (IFT) between decane (oil) and water. The employed method was the pendant droplet technique. We do not observe any striking effect of expanding the chain length: all acids reduced the IFT compared to water by approximately 20 mN/m. Additionally, the effect of changing the chemical character and the concentration of the cation in a series of brines where studied too, and again we do not observe a significant IFT impact. The only modification that significantly reduces the IFT is the modification of the anion from chloride to carbonate, a change that results in an increased pH and thus a transformation of the constituent acids from their neutral to their anionic form. This is expected to result in a reduced IFT because of the polar end of the surfactant is even more polar which alleviates the stress on the surface.",

author = "Sayed, {Amr M.} and Olesen, {Kristian B.} and Alkahala, {Abdul Sattar} and S{\o}lling, {Theis I.} and Nayef Alyafei",

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doi = "10.1016/j.petrol.2018.10.097",

language = "English",

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journal = "Journal of Petroleum Science and Engineering",

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T1 - The effect of organic acids and salinity on the interfacial tension of n-decane/ water systems

AU - Sayed, Amr M.

AU - Olesen, Kristian B.

AU - Alkahala, Abdul Sattar

AU - Sølling, Theis I.

AU - Alyafei, Nayef

PY - 2019/2

Y1 - 2019/2

N2 - We have investigated how a homologous series of straight-chain carboxylic acids with a cyclohexyl substituent in the opposite end of the functional groups impacts the interfacial tension (IFT) between decane (oil) and water. The employed method was the pendant droplet technique. We do not observe any striking effect of expanding the chain length: all acids reduced the IFT compared to water by approximately 20 mN/m. Additionally, the effect of changing the chemical character and the concentration of the cation in a series of brines where studied too, and again we do not observe a significant IFT impact. The only modification that significantly reduces the IFT is the modification of the anion from chloride to carbonate, a change that results in an increased pH and thus a transformation of the constituent acids from their neutral to their anionic form. This is expected to result in a reduced IFT because of the polar end of the surfactant is even more polar which alleviates the stress on the surface.

AB - We have investigated how a homologous series of straight-chain carboxylic acids with a cyclohexyl substituent in the opposite end of the functional groups impacts the interfacial tension (IFT) between decane (oil) and water. The employed method was the pendant droplet technique. We do not observe any striking effect of expanding the chain length: all acids reduced the IFT compared to water by approximately 20 mN/m. Additionally, the effect of changing the chemical character and the concentration of the cation in a series of brines where studied too, and again we do not observe a significant IFT impact. The only modification that significantly reduces the IFT is the modification of the anion from chloride to carbonate, a change that results in an increased pH and thus a transformation of the constituent acids from their neutral to their anionic form. This is expected to result in a reduced IFT because of the polar end of the surfactant is even more polar which alleviates the stress on the surface.

U2 - 10.1016/j.petrol.2018.10.097

DO - 10.1016/j.petrol.2018.10.097

M3 - Journal article

SN - 0920-4105

VL - 173

SP - 1047

EP - 1052

JO - Journal of Petroleum Science and Engineering

JF - Journal of Petroleum Science and Engineering

ER -

The effect of organic acids and salinity on the interfacial tension of n-decane/ water systems

Abstract

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