Abstract
The conglomerate reservoir is rich in oil and gas reserves; however, the gravel's mechanical properties and laws are difficult to gain through laboratory experiments, which furthermore constrain the hydraulic fracturing design. To analyse the failure law of conglomerate, we simulated the uniaxial compression test based on discrete element software PFC2D and analysed the effect of different cementation strength, gravel content and gravel geometry on the rock deformation and failure characteristics. Results show that (i) as the cementation strength decreases, the compressive strength and elasticity modulus both reduce clearly, while the crack shapes get more complex and the critical value is 0.3; (ii) as the gravel content increases, the conglomerate strength first decreases then increases under the influences of cracks bypassing gravels; cementation strength and gravel content of the conglomerate both contribute to the increase in local additional stress, which leads to a series of changes in crack shapes and mechanical properties of the conglomerate. Based on the above research, the conglomerate strength and crack shapes after failure are relatively complex due to the common influence of cementation strength and gravel content. The gravel edge crack caused by stress concentration is the micro-mechanism that affects the conglomerate mechanical properties.
Highlights
Reservoirs are generally distributed in sandstone, shale, tight sandstone, carbonatite and igneous rocks, whereas few gas and royalsocietypublishing.org/journal/rsos R
A discrete element numerical model of the conglomerate was established in this paper based on PFC2D to study the influence law of cementation strength between gravels and matrix, gravel content and shape on the mechanical properties and crack characteristics
The post-peak drop shows the tendency of changing from brittle crack to plastic crack, and cracks change from tensile to shear cracks bypassing gravels, crack shapes get more complex and the critical value of cementation strength ratio is 0.3
Summary
Reservoirs are generally distributed in sandstone, shale, tight sandstone, carbonatite and igneous rocks, whereas few gas and royalsocietypublishing.org/journal/rsos R. The conglomerate reservoirs known so far are Spirit 2 River Formation in Wapiti, Canada, Pennsylvanian basal conglomerate in Garfield field, America, conglomerate reservoir in Edvard Grieg field and Daxing conglomerate reservoir in the Langgu Depression of Bohai Bay Basin, China [1,2,3,4]. Reserves of these sand conglomerate are not abundant enough to gain a worldwide attention. Rocks are mainly conglomerate in this reservoir with reserves of more than 1 billion tons and a huge development potential. Hydraulic fracturing is needed to improve the reservoir permeability, and it is necessary to grasp its mechanical properties
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