Experimental Study on the Effect of High-Temperature Nitrogen Immersion on the Nanoscale Pore Structure of Different Lithotypes of Coal-Reference-Cited by-同舟云学术

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Experimental Study on the Effect of High-Temperature Nitrogen Immersion on the Nanoscale Pore Structure of Different Lithotypes of Coal

Published:2023 Issue: Volume: Page:
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Author:

zhang hewei,shen jian,du lei,li kexin,fang xiaojie

Publisher

Elsevier BV

Reference54 articles.

1. Uneven stress and permeability variation of mining-disturbed coal seam for targeted CBM drainage: A case study in Baode coal mine, eastern Ordos Basin;C Xu;Fuel,2021

2. Fracture propagation induced by hydraulic fracturing using microseismic monitoring technology: Field test in CBM wells in Zhengzhuang region, Southern Qinshui Basin;J Zhao;Frontiers in Earth Science,2023

3. A comprehensive insight into the effects of acidification on varied-sized pores in different rank coals;P Jiang;Frontiers in Earth Science,2023

4. Pore Structure Sensitivity to External Fluids for Coal Reservoir and Fracturing Initiation/Propagation Mechanism by Using the T 1? T 2 NMR Spectrum and Physical Simulation Experiment;Y Yang;Energy & Fuels,2022

5. Fluid space reformation law of liquid nitrogen fracturing coal based on NMR T1-T2 spectra and inspiration for coalbed methane production;L Qin;Fuel,2022

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