Add to ORKGIn shales, a significant fraction of the pore sizes is within the 100-nm range and the transport properties under nano-size confinements deviate from those measured under unconfined conditions at identical pressures and temperatures. This dissertation aims to characterize different effective transport properties of shales at the core scale. The tree-like model is used to capture the effective pore connectivity at the core scale because it mimics various petrophysical measurements. We use the mercury injection capillary pressure measurements as a means of characterizing the pore connectivity. We first propose a simple relation based on the tree-like model to estimate matrix permeability. The estimated permeability is presented in a tabular ...
Predicting long-term production from gas shale reservoirs is a challenging task due to changes in ef...
Abstract: For typical blocky, laminated and bedded mudrock samples from the Paleogene Shahejie Forma...
The mechanical properties and matrix permeability of gas shales are the most important properties in...
Extremely low permeability due to nano-scale pores is a distinctive feature of gas transport in a sh...
In the matrix of a shale formation, a significant fraction of the pores has a size that is smaller t...
Gas flow mechanisms and apparent permeability are important factors for predicating gas production i...
Gas transport in ultra-tight rock is non-Darcian. In addition to continuum flow, there are multiple ...
Shale rock consists of a complex matrix structure due to presence of nano-scale pores. Owing to such...
Shale reservoir contains different rock components that exhibit multi-scale hierarchical pore struct...
The challenges in sustainable and efficient development of organic shales demand a better understand...
Inorganic nanopores occurring in the shale matrix have strong hydrophilicity and irreducible water (...
Shale formation is featured in nanopores and much gas adsorptions. Gas flow in the shale matrix is n...
In this work, new integrated permeability models for micro-nanopores and fractal shale matrixes are ...
Predicting apparent gas permeability (AGP) in nanopores is a major challenge for shale gas developme...
The increasing significance of shale plays leads to the need for deeper understanding of shale behav...
Predicting long-term production from gas shale reservoirs is a challenging task due to changes in ef...
Abstract: For typical blocky, laminated and bedded mudrock samples from the Paleogene Shahejie Forma...
The mechanical properties and matrix permeability of gas shales are the most important properties in...
Extremely low permeability due to nano-scale pores is a distinctive feature of gas transport in a sh...
In the matrix of a shale formation, a significant fraction of the pores has a size that is smaller t...
Gas flow mechanisms and apparent permeability are important factors for predicating gas production i...
Gas transport in ultra-tight rock is non-Darcian. In addition to continuum flow, there are multiple ...
Shale rock consists of a complex matrix structure due to presence of nano-scale pores. Owing to such...
Shale reservoir contains different rock components that exhibit multi-scale hierarchical pore struct...
The challenges in sustainable and efficient development of organic shales demand a better understand...
Inorganic nanopores occurring in the shale matrix have strong hydrophilicity and irreducible water (...
Shale formation is featured in nanopores and much gas adsorptions. Gas flow in the shale matrix is n...
In this work, new integrated permeability models for micro-nanopores and fractal shale matrixes are ...
Predicting apparent gas permeability (AGP) in nanopores is a major challenge for shale gas developme...
The increasing significance of shale plays leads to the need for deeper understanding of shale behav...
Predicting long-term production from gas shale reservoirs is a challenging task due to changes in ef...
Abstract: For typical blocky, laminated and bedded mudrock samples from the Paleogene Shahejie Forma...
The mechanical properties and matrix permeability of gas shales are the most important properties in...