Dispersed Systems |
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Page 57
... ( surfactant solution phase and surfactant solid phase ) , three components ( water , monomeric surfactant , and micelle ) , and one equilibrium equation where r is the number of equilibrium equations . Then , two intensive thermodynamic ...
... ( surfactant solution phase and surfactant solid phase ) , three components ( water , monomeric surfactant , and micelle ) , and one equilibrium equation where r is the number of equilibrium equations . Then , two intensive thermodynamic ...
Page 96
... surfactant to that without surfactant . Increasing electrolyte concentration results in a stronger volume flow decline which is caused by the electrolyte - surfactant interaction . In addition , the transport resistance through the ...
... surfactant to that without surfactant . Increasing electrolyte concentration results in a stronger volume flow decline which is caused by the electrolyte - surfactant interaction . In addition , the transport resistance through the ...
Page 98
... surfactant anion FT 248. When the reverse osmosis membrane is used in the solution containing the cationic surfactant , the permeation of the smaller cation should be increased at rising surfactant concentration . This is observed for ...
... surfactant anion FT 248. When the reverse osmosis membrane is used in the solution containing the cationic surfactant , the permeation of the smaller cation should be increased at rising surfactant concentration . This is observed for ...
Contents
General | 1 |
Surfactant Aggregation | 55 |
Phase equilibria and thermodynamics of liquid and solid crystal | 86 |
Copyright | |
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accepted June acid adsorbed adsorption aggregates amine anionic aqueous solutions behavior bentonite benzocaine birefringence calculated capillary waves cationic cell chain Chem coagulation Colloid concentration constant contact angle copolymer creams crystal growth crystalline curve decrease density dependence determined dielectric diffusion coefficient dispersion dodecyl effect electrolyte electron emulsions enthalpy equation equilibrium ESASS ethoxylated ethylene oxide experimental fibers formation Fowkes function graft copolymer hydrated hydrophilic hydrophobic increase Interf Sci interface interfacial tension ions isotropic kinetics Krafft point Kratky lamellae latex latices layer liquid measurements membrane method micelles micro-emulsion microparacrystals mixture mol/l molecules NaCl Neumann obtained parameters particle Phys Chem polarization Polym Sci polymer potential precipitation pressure ratio salt sample scattering sediment shear shear rate shown in Fig shows solid phase solubility solvent spectra structure surface tension surfactant Table temperature tion values viscosity x-ray Zeta zetapotential