Abstract:Samples of quartz veins were collected from the Permian Gufeng Formation siliceous shale fractures along the Changqiao profile, Jingxian County in southern Anhui. Inclusion composition analysis, thermodynamic temperature measurement, and laser Raman spectroscopy were carried out on the samples, and high-density methane inclusions were detected. The measured displacements of laser Raman scattering peak v₁ of the inclusions vary from 2910.6~2911.2 cm^-1, and densities of the methane inclusions were calculated as 0.2295~0.2618 g/cm³, indicating characteristics of high-density methane inclusions. The two-phase vapor-liquid brine inclusions coexisting with the methane inclusions have homogenization temperatures ranging from 216.8 ℃ to 242.3 ℃. The combination of methane inclusion composition by laser Raman spectroscopy with the simulation of high-density methane inclusions using the equation of state of supercritical methane system shows that the trapping pressure at 216.8 ℃ was 76~95 MPa. By calculating the density of the high-density methane inclusion and the capture pressure, it reveals the evidence for high-pressure methane yield in the Permian Gufeng Formation highly evolved siliceous shale in geological history, and provides scientific grounds for the exploration and evaluation of Permian shale gas in southern Anhui.