Ashikhmin, Alexander; Piskunov, Maxim; Yanovsky, Vyacheslav; Yan, Wei-Mon published the artcile< Properties and Phase Behavior of Water-in-Diesel Microemulsion Fuels Stabilized by Nonionic Surfactants in Combination with Aliphatic Alcohol>, Synthetic Route of 104-76-7, the main research area is property phase water diesel microemulsion fuel stabilization micellar; nonionic surfactant aliphatic alc emulsifier.
We study the properties and phase behavior of the H2O-diesel fuel-Neonol AF 9-6/2-ethylhexanol system, which is regarded as a promising microemulsion fuel. A pseudoternary diagram of the system has been obtained. In the diesel fuel/H2O (DF/W) ratio ranging from 98:2-50:50 and the emulsifier concentration of 8-40 volume%, a region of microemulsions has been distinguished, generating particular interest as an alternative fuel. In the region under study, a reverse micellar phase L2 has existed predominantly. Fish-cut diagrams have been obtained for the DF/W ratios in the emulsifier concentration-temperature coordinates. An increase in the H2O fraction in microemulsions significantly has narrowed the range of their stability. The critical changes of microemulsion properties have been identified using the fish-cut diagrams. We established the empirical relation among the phase inversion temperature, the emulsifier concentration in the phase inversion point, and the H2O fraction in microemulsions.
Energy & Fuels published new progress about Aliphatic alcohols Role: MOA (Modifier or Additive Use), USES (Uses). 104-76-7 belongs to class alcohols-buliding-blocks, and the molecular formula is C8H18O, Synthetic Route of 104-76-7.
Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts