Surfactant foams doped with laponite: unusual behaviors induced by aging and confinement

Guillermic, Reine‐Marie; Salonen, Anniina; Émile, Janine; Saint‐Jalmes, Arnaud

doi:10.1039/b914923f

Cited by 100 publications

(56 citation statements)

References 29 publications

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“…They can be used as sacrificial templates for the production of macroporous materials [1,2] , in food and cosmetics or for a large variety of other applications [3][4][5][6] . Although a strong effort has been made for understanding the aging of foams [7] and consequently for increasing their stability and properties via their chemical formulation [8][9][10] , there still does not exist a system which would exhibit high foamability in parallel with drastic reductions of the aging processes, leading to huge lifetimes. It must be mentioned however that the stability can be increased alternatively but by using gelator within the foam stock solution [11] .…”

Section: ((Dedication----optional))mentioning

confidence: 99%

Smart Foams: Switching Reversibly between Ultrastable and Unstable Foams

Fameau¹,

Saint‐Jalmes

Cousin³

et al. 2011

Angewandte Chemie

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Ultrastabile Schäume mit optimaler Schäumbarkeit sind mithilfe von Hydroxyfettsäure‐Röhren zugänglich (siehe Bild). Die Stabilisierung ist die Folge der Adsorption von Monomeren an der Luft‐Wasser‐Grenzfläche und dem Vorliegen von Röhren in den Plateau‐Grenzen. Beim Erwärmen gehen die Röhren in Micellen über, was zur Schaumdestabilisierung und damit zu den ersten Schäumen mit temperaturgesteuerter Schäumbarkeit führt.

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Section: ((Dedication----optional))mentioning

confidence: 99%

Smart Foams: Switching Reversibly between Ultrastable and Unstable Foams

Fameau¹,

Saint‐Jalmes

Cousin³

et al. 2011

Angewandte Chemie

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“…For this purpose, rheology is of prime importance to study the flow behaviour of foams [3,5,6,68]. Abivin et al [47] have studied the rheological properties of foamy oil by using a controlled stress rheometer under pressure.…”

Section: Tests and Specific Tools For Studying Foaming And Defoaming mentioning

confidence: 99%

“…Thus one finds general concepts relating to foam generation and stability of fluid-based foam pertinent to all types of foam. For example the surface tension will determine the energy required to create a bubble in the media, and the foaming liquid rheology controls the drainage and approach between adjacent bubbles [3,5,6]. Beyond these general concepts more specific physical chemical aspects must be addressed to understand individual systems.…”

Section: Introductionmentioning

confidence: 99%

Non-Aqueous and Crude Oil Foams

Blázquez

Emond

Schneider

et al. 2013

Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles

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D o s s i e rRe´sume´-Mousses non aqueuses et mousses pe´trolie`res -Les mousses produites a`partir de syste`mes non aqueux sont moins fre´quentes que les mousses a`base d'eau, mais elles jouent un roˆle important dans de nombreuses applications et proce´de´s industriels. La faible tension de surface des liquides a`base d'hydrocarbures limite l'adsorption des agents de surface classiques et par conse´quent diffe´rents compose´s et me´thodes doivent eˆtre conside´re´s afin de ge´ne´rer et de stabiliser les mousses a`base d'huile. De meˆme, le cassage des mousses non aqueuses inde´sirables ne´cessite des conside´rations spe´cifiques a`ces syste`mes. Les mousses de pe´trole pre´sentent un inte´reˆt particulier de par leur complexite´en raison de la grande varie´te´des compose´s et des gaz qui peuvent les constituer. Nous pre´sentons dans cet article un aperc¸u des principaux me´canismes reconnus comme importants pour la stabilite´des mousses non aqueuses avec une conside´ration toute particulie`re pour les mousses de pe´trole brut.Abstract -Non-Aqueous and Crude Oil Foams -Foams produced from non-aqueous media are less common than water-based foams but they play an important role in many industries and engineering processes. The low surface tension of hydrocarbon fluids limits the adsorption of common surface activity substances and different compounds and methods must be considered to generate and stabilize oil-based foam. Likewise, the destruction of unwanted non-aqueous based foam requires specific considerations not found with aqueous systems. Of particular interest are petroleum-based foams, which are highly complex due to the wide variety of compounds and gases that can be found. We provide an overview of the major mechanisms known to be important for non-aqueous foam stability with a spotlight on crude-oil foams.

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“…Intermediate drop sizes give the least stable foams. Highly concentrated emulsions can have a yield stress that is sufficient to stop drainage [11,12]. Goyon et al [11] showed that drainage could be induced by shear once the applied stress exceeds the yield stress of the emulsions.…”

Section: Introductionmentioning

confidence: 99%

Foamed emulsion drainage: flow and trapping of drops

et al. 2017

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: Foamed emulsions are ubiquitous in our daily life but the ageing of such systems is still poorly understood. In this study we investigate foam drainage and measure the evolution of the gas, liquid and oil volume fractions inside the foam. We evidence three regimes of ageing. During an initial period of fast drainage, both bubbles and drops are very mobile. As the foam stabilises drainage proceeds leading to a gradual decrease of the liquid fraction and slowing down of drainage. Clusters of oil drops are less sheared, their dynamic viscosity increases and drainage slows down even further, until the drops become blocked. At this point the oil fraction starts to increase in the continuous phase. The foam ageing leads to an increase of the capillary pressure until the oil acts as an antifoaming agent and the foam collapses.

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Surfactant foams doped with laponite: unusual behaviors induced by aging and confinement

Cited by 100 publications

References 29 publications

Smart Foams: Switching Reversibly between Ultrastable and Unstable Foams

Smart Foams: Switching Reversibly between Ultrastable and Unstable Foams

Non-Aqueous and Crude Oil Foams

Foamed emulsion drainage: flow and trapping of drops

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