| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 611600 | Journal of Colloid and Interface Science | 2007 | 8 Pages |
Low resistivity in argillaceous sandstone reservoirs may be attributed either to the effect of microporosity, or to specific effects due to intrinsic clays' conducting properties or to other conducting minerals. In order to distinguish these effects, cation exchange capacity, specific surface areas, and dc conductivity of various pore lining chlorite-bearing sandstones from different hydrocarbon reservoir measurements are investigated. Cation exchange capacity and specific surface area are measured on whole rocks as well as on size-separated fractions. Both sets of values are low, in agreement with the structural and textural observations. The conductivity of these chlorites, measured in air conditions and after dehydration, is investigated by means of complex impedance spectroscopy on size-separated fractions as a function of temperature and compared to that of reference clays. The results show a large influence of moisture, applied electric field frequency, and temperature on the electrical properties. The magnitude of the dehydrated clays' conductivity is such that its influence on the conductivity of argillaceous sandstone is lower than that related to the presence of water or brine by several orders of magnitude. The dc conductivity and the related activation energy of the dehydrated samples appear to be related to the chemical composition of the clays. More specifically, a clear correlation occurs with the electrical charges of the clay network, that is to say with the location, i.e., tetrahedral or octahedral sites, of the substituting trivalent elements.
Graphical abstractThis work emphasises that the low resistivity measured in argillaceous sandstone reservoirs cannot be correlated to the intrinsic, i.e., dehydrated conductivity of clays, as shown from the conductivity analysis of a series of reference clays and chlorites extracted from argillaceous sandstone reservoirs. On the other hand, it is shown that a correlation exists between the intrinsic clay conductivity and the localisation of the substituting trivalent cations into the clay structure.Figure optionsDownload full-size imageDownload as PowerPoint slide
