Theory for the phase behavior of microemulsions
Conference
·
· Prepr., Div. Pet. Chem., Am. Chem. Soc.; (United States)
OSTI ID:7268131
A model has been developed which quantitatively predicts phase behavior in micellar systems or microemulsions. This model treats the interface between a droplet and its contacting external phase as a duplex monolayer of oriented surfactant molecules. The respective hydrophilic heads and lipophilic chains sides of the interface are treated as independent interphases, water interacting with the heads and oil with the chains. Direction and degree of curvature are imposed by a lateral stress gradient in the interface resulting from differences in interaction on either side of the interface. This stress gradient is expressed in terms of physically measurable quantities, surfactant molecular volume, interfacial tension and compressibility. Surfactant volume and compressibility are split into separate contributions by heads and chains. (This lays a quantitative physical basis for describing Hydrophilic versus Lipophilic interactions in the system (HLB).) When the heads volume and compressibility are larger than that of the chains, the interface curves convex to the water phase, the microemulsion is O/W. The microemulsion is W/O when the chains volume and compressibility is larger. Equations are developed for both oil droplets (O/W) and water droplets (W/O) which relate interfacial tension and surfactant head and chain volumes and compressibilities to phase behavior. Phase behavior is expressed in terms of water and oil uptake in saturated microemulsions and is described on an idealized ternary phase diagram. The theory correlates water and oil uptake, the idealized ternary diagram and Winsor's transition in micellar types. Where water and oil uptake are known, interfacial tension can be predicted and vice versa. The theory also predicts droplet size and interfacial concentrations of adsorbed surfactant in terms of molecules/droplet.
- Research Organization:
- Exxon Research and Engineering Co., Linden, NJ
- OSTI ID:
- 7268131
- Conference Information:
- Journal Name: Prepr., Div. Pet. Chem., Am. Chem. Soc.; (United States) Journal Volume: 21:2
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
02 PETROLEUM
020300* -- Petroleum-- Drilling & Production
COLLOIDS
DIAGRAMS
DISPERSIONS
DROPLETS
EMULSIONS
ENERGY SOURCES
ENHANCED RECOVERY
FLUID INJECTION
FOSSIL FUELS
FUELS
MATHEMATICAL MODELS
MICELLAR SYSTEMS
MICROEMULSION FLOODING
MICROEMULSIONS
MISCIBLE-PHASE DISPLACEMENT
PARTICLES
PETROLEUM
PHASE DIAGRAMS
PHASE STUDIES
SURFACTANTS
020300* -- Petroleum-- Drilling & Production
COLLOIDS
DIAGRAMS
DISPERSIONS
DROPLETS
EMULSIONS
ENERGY SOURCES
ENHANCED RECOVERY
FLUID INJECTION
FOSSIL FUELS
FUELS
MATHEMATICAL MODELS
MICELLAR SYSTEMS
MICROEMULSION FLOODING
MICROEMULSIONS
MISCIBLE-PHASE DISPLACEMENT
PARTICLES
PETROLEUM
PHASE DIAGRAMS
PHASE STUDIES
SURFACTANTS