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Russian Geology and Geophysics

2002 year, number 7

MEASURING HYDRATE PHASE BOUNDARY IN POROUS MEDIA

B. Tohidi, K. K. Ostergaard, R. W. Burgass, and M. Llamedo
Keywords: Gas hydrates, marine sediments, porous media, phase boundary, experimental technique, methane, CO2
Pages: 685-688

Abstract

There are massive quantities of gas hydrates in permafrost regions and deep-sea sediments. The current estimates show that the amount of energy in these gas hydrates is twice total fossil fuel reserves, indicating a huge source of energy, which can be exploited in the right economical conditions. Furthermore, these gas hydrates are a safety hazard to drilling operation, as they could become unstable under typical wellborn conditions and produce large quantities of gas. The decomposition of natural gas hydrates in porous media could also be responsible for subsea landslides and global weather changes. Recent studies show that they might provide an opportunity for CO2 sequestering.
Hydrate phase boundary in porous media is known to be a function of many factors, such as pore size, fluid saturation, in situ stresses, and sediment mineralogy. Deviations, as great as 100 m, have been observed between the measured and predicted thickness of hydrate stability zones in marine sediments. Laboratory efforts in measuring gas hydrate stability zone in porous media have concentrated on the effect of pore size and fluid saturation. However, there are considerable deviations and inconsistencies in the reported data.
This paper presents an experimental setup, test procedures, and some of the results obtained on porous glass beads with 306 and 158 pore sizes with using methane and CO2. The test procedure is based on stepwise heating as compared to continuous heating used by many laboratories. The results proved that stepwise heating technique could provide reliable and consistent data on measuring hydrate phase boundary in porous media, without compromising on the time and cost of experiments. The data showed that there could be a significant difference between the hydrate free zone of gas hydrates in porous media and that of bulk conditions. These results are important in estimating the hydrate stability zones in porous media, as indicated by BSR in seismic surveys.