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Corrosion-Stage Diagnosis of Reclaimed-Water Cast Iron Pipelines Based on Corrosion Acceleration for Sustainable Urban Water Infrastructure

Author

Listed:
  • Yong Wang

    (School of Architectural Engineering, Yan’an University, Shengdi Road No. 580, Yan’an 716000, China)

  • Xin Jin

    (School of Human Settlements, Xi’an Jiaotong University, Xianning Road No. 28, Xi’an 710049, China)

  • Chao Zhang

    (China Rare Earth Group Co., Ltd., No. 16 Zhangjiang Road, Zhanggong District, Ganzhou 510095, China)

  • Lie Liang

    (School of Architectural Engineering, Yan’an University, Shengdi Road No. 580, Yan’an 716000, China)

  • Yonghua Zhu

    (School of Architectural Engineering, Yan’an University, Shengdi Road No. 580, Yan’an 716000, China)

  • Yidan Guo

    (King’s Business School, King’s College London, London WC2B 4BG, UK)

Abstract

A 700 m pilot-scale cast iron pipeline reactor was operated for 120 days to investigate corrosion-stage evolution under reclaimed-water conveyance conditions. Sampling points were arranged at 50, 250, 450, and 650 m, and water-quality monitoring, coupon weight-loss tests, scanning electron microscopy (SEM), and high-throughput 16S rRNA sequencing were combined to characterize corrosion-rate variation, corrosion-product morphology, and microbial community succession. During transport, NH 4 + generally decreased while NO 3 − increased, indicating nitrification-related nitrogen transformation under aerobic conditions; meanwhile, PO 4 3− declined and DOC fluctuated, reflecting coupled physicochemical and biological processes. SEM observations showed a transition from loose porous deposits to relatively compact layered corrosion products, followed by local deterioration and renewed porous structures in the later period. The corrosion rate followed an increase–decrease–re-increase pattern rather than a monotonic trend. Therefore, corrosion acceleration (CA = dc/dt) was introduced as an auxiliary diagnostic indicator to identify whether corrosion activity was increasing, decreasing, or temporarily stabilizing. Microbial community analysis showed stage-associated variation in biofilm and nitrogen-transformation-related taxa, supporting the interpretation that corrosion evolution was jointly affected by water-quality change, corrosion-product development, and microbial succession. Overall, the combined interpretation of corrosion rate, CA, water quality, SEM morphology, and microbial succession provides a more informative basis for diagnosing corrosion-stage transitions in reclaimed-water cast iron pipelines. From a sustainability perspective, this diagnostic framework can support long-term operation, maintenance planning, and risk monitoring of urban reclaimed-water distribution infrastructure, thereby improving pipeline durability, reducing leakage and maintenance risks, and enhancing the reliability of reclaimed-water reuse systems.

Suggested Citation

  • Yong Wang & Xin Jin & Chao Zhang & Lie Liang & Yonghua Zhu & Yidan Guo, 2026. "Corrosion-Stage Diagnosis of Reclaimed-Water Cast Iron Pipelines Based on Corrosion Acceleration for Sustainable Urban Water Infrastructure," Sustainability, MDPI, vol. 18(12), pages 1-19, June.
  • Handle: RePEc:gam:jsusta:v:18:y:2026:i:12:p:6010-:d:1965299
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