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Wei He

Xinjiang Institute of Engineering

SCHOLARLY PAPERS

3

DOWNLOADS

139

TOTAL CITATIONS

0

Scholarly Papers (3)

Adsorption Behavior of Hydrogen on the Surface of X80 Pipeline Steel: A Molecular Dynamics Simulation and Mechanistic Study

Number of pages: 40 Posted: 30 Oct 2024
Xi'an University of Science and Technology - School of Safety Science and Engineering, Xinjiang Institute of Engineering, affiliation not provided to SSRN, affiliation not provided to SSRN and affiliation not provided to SSRN
Downloads 48 (1,183,247)

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Gaseous Hydrogen Embrittlement, Pipeline Steel, Molecular Dynamics Simulation, Hydrogen Adsorption, Adsorption IsothermsInert

Adsorption Behavior of Hydrogen on the Surface of X80 Pipeline Steel: A Molecular Dynamics Simulation and Mechanistic Study

Number of pages: 40 Posted: 01 Jul 2024
Xi'an University of Science and Technology - School of Safety Science and Engineering, Xinjiang Institute of Engineering, affiliation not provided to SSRN, affiliation not provided to SSRN and affiliation not provided to SSRN
Downloads 37 (1,252,562)

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Gaseous Hydrogen Embrittlement, Pipeline Steel, Molecular dynamics simulation, Hydrogen Adsorption, Adsorption IsothermsInert

2.

CH₄ suppresses bilayer-like H₂ interfacial enrichment on Fe (110): molecular dynamics evidence and trace-species modulation under hydrogen-blended natural gas conditions

Number of pages: 37 Posted: 01 Jan 2026
Xinjiang Institute of Engineering, Xi'an University of Science and Technology - School of Safety Science and Engineering, affiliation not provided to SSRN, affiliation not provided to SSRN, Xi'an University of Science and Technology - School of Safety Science and Engineering, affiliation not provided to SSRN, Xinjiang Institute of Engineering, Shaanxi University of Technology and affiliation not provided to SSRN
Downloads 46 (1,121,190)

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Hydrogen-blended natural gas (HBNG), Methane, Interfacial bilayer enrichment, Molecular dynamics, Fe (110)

3.

Non-linear Explosion Severity and CO2 Suppression Failure in Hydrogen-Enriched Natural Gas: Kinetic Origins and Mechanism Transitions

Number of pages: 23 Posted: 30 Jan 2026
Xinjiang Institute of Engineering, Xi'an University of Science and Technology - School of Safety Science and Engineering, affiliation not provided to SSRN, Xi'an University of Science and Technology - School of Safety Science and Engineering, affiliation not provided to SSRN, Xinjiang Institute of Engineering and Shaanxi University of Technology
Downloads 8 (1,561,096)

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Hydrogen-enriched natural gas (HENG), Explosion severity, Kinetic mechanism, Laminar burning velocity, CO2 suppression, Kinetic saturation