Sedimentary rock porosity studied by electromagnetic techniques: Nuclear Magnetic Resonance and Dielectric Permittivity

RAMIA M.E.; MARTÍN C.A.

APPLIED PHYSICS. A - MATERIALS SCIENCE AND PROCESSING

SPRINGER

Lugar: Berlin; Año: 2014 p. 1 - 8

0947-8396

The present work involves a comprehensive experimental study of porosity and pore size distribution of sedimentary rocks, from oil fields formations, by means of two electromagnetic techniques, namely proton (1H) Nuclear Magnetic Resonance (NMR) and Dielectric Complex Constant (DCC) as function of the frequency, both providing complementary results. The NMR yields an accurate determination of the relative pore size distribution and both movable and irreducible fluids. The DCC measurement provides the direct current (dc) electrical resistivity of the samples with different degrees of hydration. Thus, combining the results of both techniques allow the determination of the tortuosity index, by means of Archies?s relation, and from it the average pore channel length These measurements are performed on fully hydrated (saturated), centrifuged, dried and cleaned rocks and also on samples with the irreducible fluids. Finally the results are complemented with capillary pressure measurements to obtain the total volume associated with the pore channels related to the rock permeability. Additionally, the work presents a particular method to use a network analyzer to measure the DCC.