Carbon Neutrality (Oct 2023)

Modular design of solar-powered photocathodic metal protection device

  • Hui Xie,
  • Lilac Amirav,
  • Zheng Xing

DOI
https://doi.org/10.1007/s43979-023-00068-2
Journal volume & issue
Vol. 2, no. 1
pp. 1 – 10

Abstract

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Abstract Metal corrosion leads to severe economic losses and safety hazards to human society. As an energy-efficient and sustainable anticorrosion technique, photocathodic protection (PCP) systems have received growing attention in the past two decades. However, the existing PCP devices barely meet the requirements of adequate metal protection in real-world scenarios. This perspective aims to provide some constructive insights into the rational design of PCP devices and propose “functional module integration” as a new concept for future PCP systems. Similarly to multi-layered solar cells, PCP systems may incorporate multiple modules based on the corresponding functions. These include photoabsorber module (PAM), electron transfer module (ETM), hole transfer module (HTM), hole consumption module (HCM), and electron storage module (ESM). With such a modular design, improved capture of sunlight and fast charge separation, directional transportation, and effective utilization of the photogenerated carriers might be attained. Consequently, the solar-to-electric energy conversion efficiency and operation consistency of PCP devices can be significantly boosted, paving the way for practical application of solar-powered metal protection technology. Graphical Abstract This perspective analyses the key issues of current photocathodic protection systems and proposes a unified design composed of functional modules for the next generation systems inspired by the architecture of solar cells. This modular design allows the breaking-down of all reaction steps of the solar-to-electric conversion process onto various modules, which may bring about breakthroughs for green cathodic metal protection.

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