Abstract
Microfractures are key for migrating and aggregating hydrocarbon source rocks and fracturing oil-gas exploitation in tight reservoirs. In this study, rock samples from the Lucaogou Formation tight reservoirs in Xinjiang, China, were studied using multidisciplinary techniques to investigate the genetic types and main control factors of microfractures. Results indicated that the Lucaogou Formation mainly developed diagenetic microfractures followed by tectonic microfractures, with slight formations of granular microfractures. These observations were used to clarify the relationship between the development of microfractures and the pore fluid content, lithology, mineral composition, and stratum thickness. A higher pore fluid content corresponded to a lower compressive strength of the rocks and a larger ring count, resulting in a higher probability of failure and microfracture formation. Tight reservoirs containing more quartz and carbonate minerals were found to develop more microfractures. Quartz grains showed fractures at the margins under stress, which increased the pore permeability of rocks. Carbonate minerals tended to form microfractures owing to corrosion. Microfracture formation mechanisms differed depending on lithology, and microfractures were found to develop most in dolomite and dolomitic siltstones and least in mudstone. Muddy rocks developed fewer tectonic fractures because they can easily absorb stress and undergo plastic deformation. Within a certain stratum thickness range, the average single-well fracture space and stratum thickness showed positive correlations. Moreover, the fracture space increased and the fracture density decreased as the stratum thickness increased. When the stratum thickness was less than 2.5 m, the fracture space increased linearly with the stratum thickness, and when the stratum thickness was greater than 2.5 m, the fracture space remained constant. This study will provide an essential scientific basis for enhancing tight oil recovery.
Highlights
Natural fractures are widespread in tight reservoirs [1,2,3,4]
The following methods were adopted for investigations: casting thin sections, SEM, acoustic emission (AE), and nuclear magnetic resonance (NMR)
AE and NMR can clarify the structural characteristics of rocks
Summary
Natural fractures are widespread in tight reservoirs [1,2,3,4]. Microfractures affect the migration and accumulation of oil and gas and the outcome of oil-gas development. Sediments are affected by compacted shrinkage, mineral cementation, metasomatism, and recrystallisation These occurrences induce the contraction and expansion of strata and the recombination and conversion of minerals. The Lucaogou Formation in the Jimsar Sag of Junggar Basin in Xinjiang, China, is typical continental tight oil strata showing developed tight oil reservoirs with highquality hydrocarbon source rocks, featuring active oil-gas exploitation, large oil-gas reserves, and significant exploration potential [7, 28, 29]. The Lucaogou Formation strata mainly comprise carbonate rocks, mudstone, and powder-fine sandstone [29] Previous works in this region were mainly focused on the macroscale, such as the geological structure and sedimentary environment; little research has been conducted at the microscale. The developmental characteristics and control factors of the microfractures were elucidated, and the influence of microfracture development on reservoir properties was determined
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