In recent years, porous starch has attracted increasing attention due to its valuable functions
and potential applications. Here, we present a comprehensive review of the recent …

Geological formations are suitable locations for CO 2 sequestration, and among them, coals
are excellent targets because of their nanoporous structure, which leads to a high gas …

In this paper, triaxial compression tests on coals with real-time T 2 and MRI (Magnetic
Resonance Imaging) image measurement are performed by using a nuclear magnetic …

Carbon dioxide (CO2)-enhanced coalbed methane recovery (CO2-ECBM) is a critical way to
increase methane production and reduce greenhouse gas (CO2 and CH4) emissions. As …

The porous structure of coal directly determines its gas transport property. The fluid flow
behavior of coal is one of the key science questions that will influence the coal energy …

The pores/fractures are places for gas migration and storage in coal. Their structure
complexity will directly influence the pore structure parameters and gas seepage properties …

Nuclear magnetic resonance (NMR) has been widely used to evaluate the pore size
distribution (PSD) properties of coals. However, the NMR signal itself only provides a …

Various sizes of pores in coal, which are generally formed by organic matter during the
coalification process, have a direct influence on coalbed methane extraction. However, few …

Abstract Ultra-high Performance Concrete (UHPC) is a kind of advanced cement-based
material normally designed based on particle close packing model, such as modified …

To study the pore structure and fractal characteristics of acid-treated coal, in this paper, the
low-temperature nitrogen adsorption method, scanning electron microscopy and the fractal …