<p>Corrosion is a major factor threatening the operational safety of gas pipelines. To assess pipeline corrosion rates, this study introduces intelligent resistance probe technology, providing a systematic overview of its principles and components. Additionally, nano-composite coating materials are introduced to explore this novel protection technology. Finally, an integrated study on the application of intelligent monitoring and nano-protection technologies is conducted to lay the foundation for ensuring the safe operation of gas pipelines. The research results indicate that intelligent resistance probe technology enables real-time monitoring of gas pipeline corrosion rates. Pipeline corrosion risk assessment is based on accurate corrosion rate measurements, combined with pipeline operational parameters and environmental factors, to comprehensively determine whether severe corrosion risks exist. Compared with traditional anti-corrosion coatings, nano-composite coatings exhibit significant technological advantages, including enhanced protective performance, extended service life, excellent wear resistance, and superior environmental adaptability. These characteristics make them an ideal choice for long-term corrosion protection of gas pipelines, particularly in harsh environments such as acidic soils and microbial corrosion.</p>

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Analysis of New Technologies for Corrosion Monitoring and Protection of Gas Pipelines

  • Lyu Yi,
  • Ming Wang,
  • Huan Liu,
  • Cheng He,
  • Yihan Cao,
  • Yi Sun

摘要

Corrosion is a major factor threatening the operational safety of gas pipelines. To assess pipeline corrosion rates, this study introduces intelligent resistance probe technology, providing a systematic overview of its principles and components. Additionally, nano-composite coating materials are introduced to explore this novel protection technology. Finally, an integrated study on the application of intelligent monitoring and nano-protection technologies is conducted to lay the foundation for ensuring the safe operation of gas pipelines. The research results indicate that intelligent resistance probe technology enables real-time monitoring of gas pipeline corrosion rates. Pipeline corrosion risk assessment is based on accurate corrosion rate measurements, combined with pipeline operational parameters and environmental factors, to comprehensively determine whether severe corrosion risks exist. Compared with traditional anti-corrosion coatings, nano-composite coatings exhibit significant technological advantages, including enhanced protective performance, extended service life, excellent wear resistance, and superior environmental adaptability. These characteristics make them an ideal choice for long-term corrosion protection of gas pipelines, particularly in harsh environments such as acidic soils and microbial corrosion.