Polymeric surfactants for enhanced oil recovery. IV—Thermodynamic properties of ethoxylated alkylphenol formaldehyde polymeric surfactants

Youssef, A.M.; Gendy, T. S.; Mohamad, A. I.; Barakat, Y.

doi:10.1002/pi.4980220408

Cited by 13 publications

(3 citation statements)

References 12 publications

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“…The listed data show that the CMC decreases with increasing number of ethylene oxide units (n), hydrophilic± lyophilic balance (HLB) and measuring temperature for the investigated non-ionic monomeric and polymeric surfactants. This ®nding runs in harmony with the data published by Yousef et al 20 and Calderara et al 21 who suggested that the reduction in CMC values is due to the decrease in the solubility of the surfactants. This behaviour may result from a coiling of polyethylene oxide chains due to the decrease in the solubility of the ethoxylated surfactants.…”

Section: Surface and Thermodynamic Parameterssupporting

confidence: 85%

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Synthesis and surface activity of poly(maleic diester) surfactants

Atta

1999

Polym. Int.

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A series of maleic diester monomers have been prepared by esterification of maleic anhydride with a series of n‐alkanols and poly(ethylene glycol) with different molecular weights. These monomers were polymerized in acetic anhydride solution in the presence of cumene hydroperoxide as initiator. The synthesized polymers have been characterized by IR and 1H NMR spectroscopy, and their surface and thermodynamic properties as non‐ionic surfactants is investigated. The surface tension as a function of concentration of the surfactant in aqueous solutions was measured at 298, 308, 318 and 328 K. The surface parameters are calculated. The data reveal that the CMC value of the polymeric surfactant is lower than that of the monomeric surfactant. It is also found that the CMC value decreases with increasing temperature and the number of ethylene oxide units in the surfactant molecule. The thermodynamic parameters of micellization and adsorption are also determined. The structural effectiveness of surface tension is discussed in terms of these parameters. © 1999 Society of Chemical Industry

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Section: Surface and Thermodynamic Parameterssupporting

confidence: 85%

“…The values of the ef®ciency (pC 20 ) for the studied surfactants are also given in Table 3. These data reveal that Π CMC decreases with increasing temperature while pC 20 increases with increasing temperature and with the value of n.…”

Section: ±28mentioning

confidence: 99%

Synthesis and surface activity of poly(maleic diester) surfactants

Atta

1999

Polym. Int.

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“…The large negative DG°m ic contributed to the change in entropy of the system. There are two basic opposing structural processes which occur during micellization [34]: (I) destruction of the iceberg like structured water molecules, known as ''flickering clusters'', surrounding the hydrocarbon chain that leads to a positive entropy change, and (II) rearrangement of randomly oriented monomers into micelles that leads to a negative entropy change. The data in Table 5 shows that the DS°m ic values are all positive indicating that micelle formation is favored by entropy gain [31].…”

Section: Thermodynamic Parameters Of Micellization and Adsorptionmentioning

confidence: 99%

Synthesis and Physico‐Chemical Properties of Sodium 3‐Oxo‐2‐(3‐(4‐sulphonatophenyl)triaz‐2‐enyl)octadecanoate Anionic Surfactant

El-Sharkawy

Mead

Reheim

et al. 2016

J Surfact & Detergents

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The novel anionic surfactant sodium 3-oxo-2-(3-(4-sulphonatophenyl)triaz-2-enyl)octadecanoate (SSTO) was prepared from renewable raw materials; glycine and palmitic acid. Surface and bulk properties of SSTO were investigated by surface tension and electrical conductivity techniques at 298, 308, 318 and 328 K. Surface properties including critical micelle concentration (CMC), maximum surface excess concentration (C max ), minimum area per molecule (A min ), surface tension at CMC (c CMC ), effectiveness of surface tension reduction (P CMC ), efficiency of surface adsorption (pC 20 ), and degree of counterion dissociation (a) were determined. The thermodynamic parameters of micellization (DG°m ic , DH°m ic and DS°m ic ) and adsorption (DG°a d , DH°a d and DS°a d ) were also investigated at 298, 308, 318 and 328 K. The effect of 3 wt% n-propanol, n-butanol and n-pentanol on surface tension and conductivity at 298 K was also determined.

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Water-based non-ionic polymeric surfactants as oil spill dispersants

Al-Sabagh

Atta

1999

J. Chem. Technol. Biotechnol.

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Polymeric surfactants for enhanced oil recovery. IV—Thermodynamic properties of ethoxylated alkylphenol formaldehyde polymeric surfactants

Cited by 13 publications

References 12 publications

Synthesis and surface activity of poly(maleic diester) surfactants

Synthesis and surface activity of poly(maleic diester) surfactants

Synthesis and Physico‐Chemical Properties of Sodium 3‐Oxo‐2‐(3‐(4‐sulphonatophenyl)triaz‐2‐enyl)octadecanoate Anionic Surfactant

Water-based non-ionic polymeric surfactants as oil spill dispersants

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