Mm. Mooijer-van Den Heuvel et al., Influence of water-insoluble organic components on the gas hydrate equilibrium conditions of methane, FLU PH EQUI, 172(1), 2000, pp. 73-91
In this study, certain organic additives to systems of water + methane are
investigated for their effect on the hydrate equilibrium pressure. The addi
tives studied are cyclic organic components, i.e., tetrahydropyran (THP), c
yclobutanone (CB), both forming structure II (sII), and methylcyclohexane (
MCH), forming structure H (sH) and fluoroalkanes, i.e., fluoroform (CHF3) a
nd tetrafluoromethane (CF4), both forming sI or sII depending on the concen
tration. Hydrate equilibrium data for single hydrates of the fluoroalkanes
were determined, of which the ones of CHF3 were compared to previous data f
rom literature. The hydrate equilibrium pressures were experimentally deter
mined using the Cailletet apparatus in a range of pressures from 2 to 14 MP
a and temperatures up to approximately 303 K. A reduction of the methane hy
drate equilibrium pressure was observed with all additives except for CF4.
The experimental data were modelled to retrieve the Kihara fit parameters f
or the various additives as present in the van der Waals-Platteeuw model. B
y using these parameters to correlate the hydrate equilibrium pressures, de
viations within approximately 3% from the experimental hydrate equilibrium
line were obtained. The modelling results showed that reduction of hydrate
equilibrium pressures is accompanied by a significant reduction of storage
capacity for methane, which is not recommendable for practical applications
. (C) 2000 Elsevier Science B.V. All rights reserved.