Abstract
Fused breccia tuff occurs globally, but its formation mechanism is very controversial. Volcanic reservoirs have developed at the bottom of the Permian Fengcheng Formation in the Wuxia region of the Junggar Basin, and here, the lithology is fused breccia tuff. The reservoir porosity is mainly vesicles, but the development and relative filling of the vesicles vary spatially, resulting in strong reservoir heterogeneity. Through core and thin section observations and structural analysis, and combined with reconstructions of the paleosedimentary environment, we discussed in detail the formation mechanism of the fused breccia tuff reservoir. Our conclusions are as follows. In the high-temperature and high-pressure environment of the deep crust, intermediate acidic lava containing volatile components rapidly rose to the earth’s surface along a fault. The volatile components in the lava foamed strongly and then exploded due to the sharp decline of pressure and temperature. A small part of the volcanic dust and pyroclastic material was erupted into the upper atmosphere. Most of the magma became magmatic pyroclast, vitric pyroclast, rock debris, dust, and other matter. This material was in a semimolten state and overflowed into a nearby low-lying lake. The extremely high-temperature pyroclastic flow quickly vaporized the water into high-pressure water vapor, which was squeezed into the pyroclastic flow and became mixed with other volatiles in the foam. On cooling, the pyroclastic material solidified into rock, and the vesicles were preserved. In a later period, due to strong tectonic movement, faults and fractures developed, surface water penetrated into the vesicles along the faults and fractures, and silica and other substances were deposited, filling the primary vesicles. To quantify the development and relative filling of vesicles, drilling parameters were used to establish different geologic models, and wave equation forward modeling was used to obtain a relationship between the development and filling of vesicles, and the seismic amplitude. The 3D seismic amplitude attributes were then extracted to predict the extent of the reservoir, yielding prediction results consistent with the drilling observations.
Highlights
Volcanic oil and gas reservoirs are being continuously discovered all over the world, attracting the attention of oil and gas exploration circles in China and abroad
This particular fused breccia tuff is very different from tuff in ordinary meaning: it has no stratification but has strong fluidity and pseudofluidal structures, the vitric pyroclasts and magmatic pyroclasts are arranged in elongated orientations, the storage space is mainly vesicles with spatially variable levels of development and filling, and the heterogeneity of the reservoir is relatively strong, resulting in varying hydrocarbon enrichment between regions
The lithology of Well X201 is rhyolitic fused breccia tuff; vesicles have developed and are partially filled; lentoid and long-strip flame bodies composed of magmatic pyroclast of varying sizes can be seen on the surface of the core; the flame bodies are breccia-like with a length of 20 mm~40 mm, directionally arranged and dark brown in color (Figure 2(b))
Summary
Volcanic oil and gas reservoirs are being continuously discovered all over the world, attracting the attention of oil and gas exploration circles in China and abroad. Volcanic reservoirs have developed at the bottom of the Permian Fengcheng Formation, in the Wuxia region at the northwest margin of the Junggar Basin, and have a fused breccia tuff lithology [4]. Fused breccia tuff has been found globally, and scholars in China and abroad have extensively researched its formation mechanisms [5,6,7,8,9,10,11,12,13,14,15,16,17,18]. (3) Volcanic ash flow: viscous, highly volatile, intermediate-acidic magma rose to the surface, and due to the sharp drop of pressure and temperature, a large amount of magma foamed, boiled, and exploded; the lava column containing vitric pyroclast, volcanic dust, crystal pyroclast, and other matters erupted from the crater, flowed into the low-lying areas near the crater, and solidified into rock. Fused breccia tuff represents a rock with a provenance lying between lava and pyroclastics, but since there is no existing volcanism example for reference, its formation mechanism is very controversial
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