Mechanisms of Action of Mixed Solid−Liquid Antifoams:  3. Exhaustion and Reactivation

Denkov, Nikolai D.; Marinova, K. P.; Christova, C.G.; Hadjiiski, and Asen; Cooper, Philip H.

doi:10.1021/la9910632

Cited by 51 publications

(108 citation statements)

References 32 publications

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“…Under fixed conditions, foam volumes ratios produced in the presence and in the absence of anti-foaming agent is used in the characterization of the effect of the defoamer on the foamability [22]. The result strongly depends on the specific experimental conditions: anti-foaming agent concentration [29], duration, and intensity of agitation [30][31][32].…”

Section: Evaluation Of Lmaeo-3 As Anti-foamingmentioning

confidence: 99%

Synthesis, Characterization, and Evaluation of Ethoxylated Lauryl‐Myrisityl Alcohol Nonionic Surfactants as Wetting Agents, Anti‐Foamers, and Minimum Film Forming Temperature Reducers in Emulsion Polymer Lattices

El‐Ghaffar

Sherif

El-Habab

2016

J Surfact & Detergents

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Two nonionic FAEO (fatty alcohol ethoxylated) surfactants with varying solubility were obtained by the reaction of lauryl-myrisityl alcohol (LMA) with ethylene oxide to yield lauryl-myristyl/alcohol ethoxylated with 3 and 31 mol of ethylene oxide by changing the length of polyethylene glycol segment. The prepared surfactants, designated as LMAEO-3 and LMAEO-31, were characterized for their structures using spectroscopic measurements; in addition, their surface properties were investigated. The results indicated that LMAEO-31 exhibits excellent surface activity. Evaluation of the surfactants as wetting agents, anti-foamers, and minimum film forming temperature (MFFT) reducer in emulsion polymer lattices achieved promising results indicating high performance in the mentioned industrial applications.

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Section: Evaluation Of Lmaeo-3 As Anti-foamingmentioning

confidence: 99%

Synthesis, Characterization, and Evaluation of Ethoxylated Lauryl‐Myrisityl Alcohol Nonionic Surfactants as Wetting Agents, Anti‐Foamers, and Minimum Film Forming Temperature Reducers in Emulsion Polymer Lattices

El‐Ghaffar

Sherif

El-Habab

2016

J Surfact & Detergents

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“…In contrast, the oil+particle compound significantly reduces the foaminess of the AOT solution and destroys the foam completely in less than 20 seconds. These different patterns of foam destruction are related to two different modes of antifoam action, 8,[10][11][12][13][14][15][16][17][18][19][20][21][22][23][24][25] which are explained in section 2.3 and are discussed throughout this chapter. Various terms are used to characterize the antifoam performance.…”

Section: The Antifoam Effectmentioning

confidence: 99%

“…[3][4][5][6][7][8][9] The antifoam exhaustion (deactivation) is a process in which the antifoam loses its activity in the course of foam destruction. [5][6][7][8]12,[19][20][21][24][25][26][27][28] The durability of an antifoam characterizes its ability to destroy a larger total amount of foam before exhaustion, or to maintain the instantaneous foam volume below a specified value (during continuous foaming) for a longer period of time. 8,12,[19][20][21]24,25 Finally, the term antifoam efficiency is used to characterize the antifoam in a general sense, with respect to both activity and durability.…”

Section: The Antifoam Effectmentioning

confidence: 99%

Antifoam Effects of Solid Particles, Oil Drops and Oil—Solid Compounds in Aqueous Foams

Denkov¹,

Marinova

2006

Colloidal Particles at Liquid Interfaces

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“…Some literatures explored factors having some effects on the antifoam exhausting in aqueous systems, including entry barrier of antifoam, spreading oil and particle size, and so on 16, 17…”

Section: Introductionmentioning

confidence: 99%

Antifoaming performance of polysiloxanes modified with fluoroalkyls and polyethers

Cai

et al. 2008

J of Applied Polymer Sci

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A series of polysiloxanes modified with fluoroalkyls and polyethers were synthesized. Antifoaming performance of such modified polysiloxanes in the mixture of diesel and mobile fuel was studied. The effects of factors such as polyethers type, molar ratio between polyether and fluoroalkyl, hydrogen-contents and viscosity of polysiloxanes, length of fluoroalkyls, etc., on the performance of modified products were discussed. It shows that polysiloxane modified with allyl polyoxypropylene ether and hexafluorobutyl acrylate has better breaking and inhibiting foam performance, when compared with that replacing allyl polyoxypropylene ether with allyl polyoxyethylene polyoxypropylene block ether and allyl polyoxyethylene ether. And when the molar ratio between allyl polyoxypropylene ether and hexafluorobutyl acrylate is 3 : 7, modified polysloxane has the best foam controlling performance. Low viscosity polysiloxane or low hydrogen content polysiloxane modified with allyl polyoxypropylene ether and hexafluorobutyl acrylate has better foam controlling performance. Polysiloxane modified with longer carbon chain fluoroalkyl and allyl polyoxypropylene ether has better antifoaming performance than that modified with shorter carbon chain fluoroalkyl and polyether and lower surface tension. The change of surface tension of foaming liquid between initially added with modified polysiloxane and after testing antifoaming performance was studied, and it shows that after testing performance of antifoam, the surface tension of foaming liquid becomes bigger which is one possible reason for antifoam exhausting.

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Mechanisms of Action of Mixed Solid−Liquid Antifoams: 3. Exhaustion and Reactivation

Cited by 51 publications

References 32 publications

Synthesis, Characterization, and Evaluation of Ethoxylated Lauryl‐Myrisityl Alcohol Nonionic Surfactants as Wetting Agents, Anti‐Foamers, and Minimum Film Forming Temperature Reducers in Emulsion Polymer Lattices

Synthesis, Characterization, and Evaluation of Ethoxylated Lauryl‐Myrisityl Alcohol Nonionic Surfactants as Wetting Agents, Anti‐Foamers, and Minimum Film Forming Temperature Reducers in Emulsion Polymer Lattices

Antifoam Effects of Solid Particles, Oil Drops and Oil—Solid Compounds in Aqueous Foams

Antifoaming performance of polysiloxanes modified with fluoroalkyls and polyethers

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