The use of low-dosage inhibitors is an alternative to thermodynamic inhibitors to prevent gas
hydrates from plugging oil production pipelines. In this work, quaternary ammonium salts (QAs)
with different structures were tested as hydrate plug inhibitors on model systems containing
1/1/4/X proportions (by weight) of water/THF/oil/QA systems. The experimental results suggest
that the presence of both small (CH3) groups in their polar moiety and two long alkyl chains in
their hydrophobic part has a beneficial effect on their ability to adsorb onto the hydrate surface
and form a steric barrier around the hydrate crystals, which limits their agglomeration to larger
masses. Above a minimum concentration, the concentration of the double-tailed QAs has no
appreciable effect on their ability to prevent hydrates from plugging. Their effectiveness as hydrate
plug inhibitors is not dependent on the chain length of the oil.
Colloidal suspensions of monodisperse platinum nanoparticles of 2 nm diameter have been used to catalyze the hydrosilylation of 1-octene with a polymethylhydrosiloxane. The nanoparticles were found to be as efficient as Karstedt's complex, showing that colloid formation from homogeneous species during hydrosilylation reactions is not necessarily a deactivation pathway. These results also reactivated the debate on whether Karstedt's complex was truly homogeneous or colloidal during catalysis.
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