The
study of the interaction between hydrate formation and wax
precipitation in water-in-oil (W/O) emulsions is of great significance
for the security of development in deep-water waxy oil and gas fields.
Experiments of natural gas hydrate formation in W/O emulsions containing
wax crystals were performed in a high-pressure autoclave. The macro-parametric
data, including pressure, temperature, hydrate induction time, hydrate
growth amount and rate, were compared and analyzed. Results indicated
that the stage behavior of hydrate formation process was not affected
by the precipitated wax crystals in W/O emulsions. The mass transfer
resistance of hydrate nucleation was enhanced in waxy W/O emulsions.
Hence, the hydrate induction time was prolonged and could be estimated
by a semiempirical crystallization model developed based on the Freundlich
adsorption isotherm theory. Meanwhile, the precipitated wax crystals
in W/O emulsions affected the porosity of the hydrate shell, leading
to a decrease in the average hydrate growth rate, but the total hydrate
growth amount increased compared to the emulsified systems without
wax crystals. The effect of hydrate formation and dissociation on
the wax precipitation was studied, combined with the data analysis
obtained from the polarizing microscopic observation. More wax crystals
precipitated in the systems after hydrate dissociation compared to
the systems without hydrate formation. The fractal box dimension of
the precipitated wax crystals was relatively larger affected by hydrate
formation and dissociation, implying that the structure of precipitated
wax crystals was more intricate.
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