Add to ORKGProduction of gas from shale reservoirs is governed by multiphysics mechanisms of which gas desorption is dominant. However, the actual contributions of desorption to gas production is often masked by the use of adsorption isotherms for gas production predictions. This is because it is hitherto believed that both processes are identical for methane at reservoir conditions. This research aims to quantify the effect of such a misrepresentation on gas production where sorption hysteresis is observed
With a significant amount of methane stored in shales in the form of adsorbed gas, it is important t...
Gas production from shale gas reservoirs plays a significant role in satisfying increasing energy ...
Storage and production mechanisms in gas shales are controlled by pore-scale adsorption and diffusio...
The true contribution of gas desorption to shale gas production is often overshadowed by the use of ...
Methane adsorption and desorption in shale can significantly be affected by water due to the water-b...
To quantify shale gas contents and hysteresis behaviour of the Ordovician Goldwyer shales as functio...
Adsorption of gases in porous adsorbents such as coal and shale generally exhibits the phenomenon of...
Compared with the adsorption isotherms, desorption isotherms could evaluate accurately shale absorb...
Shale gas is becoming an increasingly important energy resource. In this study, the adsorption of me...
Estimation of methane adsorption capacity is crucial for the characterization of shale gas reservoir...
Understanding methane adsorption behavior in shales is fundamental for optimizing shale gas developm...
© 2018 Elsevier B.V. Shale gas is becoming increasingly important to mitigate the energy crisis ...
Knowing the methane adsorption dynamic is of great importance for evaluating shale gas reserves and ...
Methane adsorption isotherms on shale were investigated at 25, 45, 60, and 80 °C with pressure up to...
Understanding methane adsorption behavior on deep shales is crucial for estimating the original gas ...
With a significant amount of methane stored in shales in the form of adsorbed gas, it is important t...
Gas production from shale gas reservoirs plays a significant role in satisfying increasing energy ...
Storage and production mechanisms in gas shales are controlled by pore-scale adsorption and diffusio...
The true contribution of gas desorption to shale gas production is often overshadowed by the use of ...
Methane adsorption and desorption in shale can significantly be affected by water due to the water-b...
To quantify shale gas contents and hysteresis behaviour of the Ordovician Goldwyer shales as functio...
Adsorption of gases in porous adsorbents such as coal and shale generally exhibits the phenomenon of...
Compared with the adsorption isotherms, desorption isotherms could evaluate accurately shale absorb...
Shale gas is becoming an increasingly important energy resource. In this study, the adsorption of me...
Estimation of methane adsorption capacity is crucial for the characterization of shale gas reservoir...
Understanding methane adsorption behavior in shales is fundamental for optimizing shale gas developm...
© 2018 Elsevier B.V. Shale gas is becoming increasingly important to mitigate the energy crisis ...
Knowing the methane adsorption dynamic is of great importance for evaluating shale gas reserves and ...
Methane adsorption isotherms on shale were investigated at 25, 45, 60, and 80 °C with pressure up to...
Understanding methane adsorption behavior on deep shales is crucial for estimating the original gas ...
With a significant amount of methane stored in shales in the form of adsorbed gas, it is important t...
Gas production from shale gas reservoirs plays a significant role in satisfying increasing energy ...
Storage and production mechanisms in gas shales are controlled by pore-scale adsorption and diffusio...