High‐Temperature Corrosion‐Resistant Coatings for the Energy Sector: Fid-Bau Portal

High‐Temperature Corrosion‐Resistant Coatings for the Energy Sector

Kumari, Ankita / Sati, Priyanka / Kumar, Sudesh / Singh, Rajendra P.

Recently, thermal waste recycling systems have gained increasing attention due to their increased efficiency. The need for materials resistant to corrosion is growing. Severely destructive circumstances are essential technologies that must be combined with degradation avoidance strategies in plant design in order to successfully complete a challenging task avoidance boiler that burns trash and may produce vapor. Regarding the water wall, this chapter offers the first explanation of the special conditions causing high‐temperature deterioration and erosion action. Furthermore, studies on corrosion mechanisms and the evaluation procedure utilizing an actual boiler exhibit high reproducibility, essential to the synthesis of novel materials. Reducing maintenance costs for waste‐to‐energy (WTE) plants and managing the expansion of production competence are dependent on coatings and corrosion‐resistant materials. High‐temperature superheaters may also produce excellent, durable coatings from cermet and ceramic materials. This chapter covers alloy corrosion mechanisms and the key advancements and applications in WTE plants throughout the years. The use of suitable materials at affordable prices has a significant impact on the advancement and demand for corrosion avoidance technologies. Technological developments in corrosion‐resistant coatings (CRCs) and coating‐resistant material (CRM) have enhanced the longevity and efficiency of WTE facilities. One area that requires further investigation is developing corrosion prevention software for WTE boilers.