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Overcoming the barriers to the exploration of nanoporous shales porosity

Artur Krzyżak, Iwona Habina, Grzegorz Machowski, Weronika Mazur

2020Microporous and Mesoporous Materials36 citationsDOIOpen Access PDF

Abstract

In the oil and gas industry, the critical volumetric parameter is porosity, one which allows for the estimation of hydrocarbon reserves, constituting important sources of energy. For unconventional reservoirs such as shales, precise porosity measurement is a challenge due to the significant number of pores with diameters of several nanometers and fewer. In this paper, we focus on the use of the modified Low Field NMR approach, applying a Spin Echo CMPG sequence for the quantitative and precise determination of movable porosity in the full range of the occurring pore distribution. The proposed approach minimizes the impact of overlapping signals originating from hydrogen in organic matter, OH groups, chemically bound water and moving water in the pores on the measured porosities. The examined samples from the Baltic Basin (Poland) were characterized by narrow PSD, with a dominant pore size of 2 nm, which is much lower than those known from the literature for shales, which typically range from several to dozens of nanometers. Results from the modified NMR protocol are compared with porosities from MICP and those obtained using the standard NMR approach with T2 cut-offs. As evidence of the superiority of the novel NMR approach over the standard NMR procedure, the improved accuracy of the porosity determination for the shales with extremely small pores is presented. Relations between T2 log-mean and T1/T2 values and differential porosity are also presented, suggesting that the LF NMR method could be utilized for rapid porosity estimation with a single T2 measurement. Correlations between the T2 time distribution for saturated samples and TOC allowed us to obtain a model with the use of multivariate PLSR analysis, which gives the potential for the NMR method to predict geochemical parameters such as TOC in a simple and non-invasive way.

Topics & Concepts

PorosityNanometreNanoporousMineralogyRange (aeronautics)Materials scienceAnalytical Chemistry (journal)ChemistryComposite materialNanotechnologyChromatographyNMR spectroscopy and applicationsHydrocarbon exploration and reservoir analysisHydraulic Fracturing and Reservoir Analysis
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