Fluid space reformation law of liquid nitrogen fracturing coal based on NMR T1–T2 spectra and inspiration for coalbed methane production-Reference-Cited by-同舟云学术

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Fluid space reformation law of liquid nitrogen fracturing coal based on NMR T1–T2 spectra and inspiration for coalbed methane production

Published:2022-09 Issue: Volume:324 Page:124811
ISSN:0016-2361
Container-title:Fuel
language:en
Short-container-title:Fuel

Author:

Qin Lei,Zhang Xian,Li Shugang,Wang Weikai,Lin Siheng,Wang Ping

Publisher

Elsevier BV

Subject

Organic Chemistry,Energy Engineering and Power Technology,Fuel Technology,General Chemical Engineering

Reference40 articles.

1. 3D visualization of tectonic coal microstructure and quantitative characterization on topological connectivity of pore-fracture networks by Micro-CT;Zhang;J Petrol Sci Eng,2022

2. A fractal permeability model for gas transport in the Dual-Porosity media of the coalbed methane reservoir;Ren;Transport Porous Med,2021

3. Liquid Nitrogen’s Effect on the Mechanical Properties of Dried and Water-Saturated Frozen Coal;Qin;Energ Fuel,2022

4. A combined stimulation technology for coalbed methane wells: Part 1;Su;Theory and technology Fuel,2018

5. Breakdown process and fragmentation characteristics of anthracite subjected to high-voltage electrical pulses treatment;Yan;Fuel,2020

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1. Petrophysical characterization of coal subjected to cyclic N-methylpyrrolidone treatment based on two-dimensional NMR T1-T2;Fuel;2024-06

2. Experimental Study on Differential Thermal Response and Pore-Fracture Structure Evolution Characteristics of Coals under Microwave Irradiation: A Case Study of Five Different Rank Coals;Energy & Fuels;2024-05-20

3. Characterization of stable and unstable states of moisture in wood during sorption by low-field NMR;Industrial Crops and Products;2024-04

4. Investigation of cross-scale characterization of porous structure and fluid index in bituminous coal via microwave-LN2 freeze-thaw cycles;Fuel;2024-02

5. Variations in the pore structure and fluid mobility under anionic surfactant assisted matrix acidification of coal based on nuclear magnetic resonance T1-T2 spectra;Fuel;2024-01

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