Based on the rock physical analysis of tight gas reservoirs in He8 Member of Permian Lower Shihezi Formation of Ordos Basin, and considering that bulk modulus is sensitive to pore fluid, this study proposes a fluid property detection method by compression coefficient of tight sandstone reservoirs under the constraint of reservoir lithofacies. In this method, lithofacies is identified first by calculating distribution of tight sandstone facies with the cross plot of Vp and Vs obtained from pre-stack seismic inversion; secondly, the compression coefficient is calculated by P-wave impendance and velocity from stable pre-stack seismic inversion with the restriction of lithofacies (excluding the influence of clay content); and finally, pore flui...
© 2017, China University of Geosciences and Springer-Verlag GmbH Germany. Tight zones of the gas bea...
The tight sandstone reservoirs of the Permian Shihezi and Shanxi Formation with strong heterogeneity...
The Upper Paleozoic in the north part of Tianhuan depression in the Ordos Basin, NW China has lower ...
The determination of the sweet spot of tight sandstone reservoir is the primary problem in the explo...
Through lithological analysis of reservoirs, fluid inclusion test and simulation experiment, combine...
In tight sandstone, the gas-bearing sensitivity parameters are studied to improved prediction accura...
Tight sandstones produce an increasing amount of natural gas worldwide. Apart from identifying the g...
The vague understanding of the coupling relationship among natural gas charging, reservoir densifica...
New characterization on petrophysical characteristics of tight sandstone reservoirs is of an importa...
The tight gas reserves in the Hangjinqi area are estimated at 700 × 109 m3. Since the exploration of...
To analyze the impact of the factors on physical properties and the mechanism of tightness as well a...
On the basis of comprehensive analysis of drilling, gas testing, laboratory analysis and testing dat...
Low porosity-permeability structures and microcracks, where gas is produced, are the main characteri...
High-yield gas layers, low-yield gas layers and (gas bearing) water layers of Upper Paleozoic coexis...
Pore pressure is a key parameter in controlling the well in terms of reservoir fluid pressure. An ac...
© 2017, China University of Geosciences and Springer-Verlag GmbH Germany. Tight zones of the gas bea...
The tight sandstone reservoirs of the Permian Shihezi and Shanxi Formation with strong heterogeneity...
The Upper Paleozoic in the north part of Tianhuan depression in the Ordos Basin, NW China has lower ...
The determination of the sweet spot of tight sandstone reservoir is the primary problem in the explo...
Through lithological analysis of reservoirs, fluid inclusion test and simulation experiment, combine...
In tight sandstone, the gas-bearing sensitivity parameters are studied to improved prediction accura...
Tight sandstones produce an increasing amount of natural gas worldwide. Apart from identifying the g...
The vague understanding of the coupling relationship among natural gas charging, reservoir densifica...
New characterization on petrophysical characteristics of tight sandstone reservoirs is of an importa...
The tight gas reserves in the Hangjinqi area are estimated at 700 × 109 m3. Since the exploration of...
To analyze the impact of the factors on physical properties and the mechanism of tightness as well a...
On the basis of comprehensive analysis of drilling, gas testing, laboratory analysis and testing dat...
Low porosity-permeability structures and microcracks, where gas is produced, are the main characteri...
High-yield gas layers, low-yield gas layers and (gas bearing) water layers of Upper Paleozoic coexis...
Pore pressure is a key parameter in controlling the well in terms of reservoir fluid pressure. An ac...
© 2017, China University of Geosciences and Springer-Verlag GmbH Germany. Tight zones of the gas bea...
The tight sandstone reservoirs of the Permian Shihezi and Shanxi Formation with strong heterogeneity...
The Upper Paleozoic in the north part of Tianhuan depression in the Ordos Basin, NW China has lower ...