Abstract
Accurate characterization of the micro- and nano-pore radius values in a tight sandstone reservoir is the key work to reasonably evaluate reservoir properties. The previous exploration of pore-stitching methods is mainly based on the morphological extension of similar segments. However, few scholars compare and verify the image and non-image stitching methods, so they cannot clarify the application scope of different pore-stitching methods. In this study, the pore structures of eight selected tight sandstone samples were evaluated using high-pressure mercury injection, nuclear magnetic resonance, scanning electron microscope, and the helium porosity test. Then, the C-value fitting, interpolation fitting, and morphological fitting were used to establish high-pressure mercury injection and Nuclear Magnetic Resonance (NMR) pore distribution curves to evaluate the differences among the micro-nano-scale pore radius values determined by the three fitting methods. Finally, the pore radius distribution is extracted from the binary image of Scanning Electron Microscope (SEM). After correcting the helium porosity data, the application scope of different fitting methods is evaluated by using the mean standard deviation verification method, and the optimal solution of the stitching method of pore radius distribution in each application scope is found. Compared to other studies, this research demonstrated three relatively simple methods for the determination of the full range of pore size distributions, providing a reliable method to evaluate the prerequisites of the range of application. This study provides a new idea for the micro-nano-scale pore radius splicing method of a tight sandstone reservoir, and the research results can provide a reference for the actual reservoir evaluation of oil and gas fields.
Highlights
A tight sandstone reservoir is one of the hotspots of petroleum exploration and development at present [1,2]
The characterization of the micro-nano-pore structure of a tight sandstone reservoir is one of the important factors to evaluate the quality of the oil and gas reservoir, and the basic research work to point out the key research direction of exploration and development theory and technology, so it has attracted much attention in academic circles [6,7,8]
In view of the difficulty in characterizing the micro- and nano-pores of unconventional reservoirs by conventional methods, the fine identification and characterization of micro-nano-scale pores and throats of reservoirs can be realized by using high-resolution testing technologies such as field emission scanning electron microscope, double beam electron microscope, constant velocity mercury injection, high-pressure mercury injection, maps imaging analysis, and Computerized Tomography (CT) imaging, combined with conventional testing [9,10,11]
Summary
A tight sandstone reservoir is one of the hotspots of petroleum exploration and development at present [1,2]. The quantitative characterization model of full pore size structure characteristics of micro- and nano-pores as well as the influence mechanism of connectivity and pore heterogeneity on fluid occurrence and mobility in different scales are not clear [4,15,16]. The existence of these problems has been perplexing the majority of scientific researchers and oil and gas field workers. It is urgent to clarify the splicing method of micro-nano-scale pore radius distribution so as to provide a favorable basic guarantee for the subsequent production and scientific research activities
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