Litcius/Paper detail

High Temperature Corrosion Resistant and Anti-slagging Coatings for Boilers: A Review

Kritkasem Khantisopon, Surinder Singh, Jaturong Jitputti, Christopher C. Berndt, Andrew Siao Ming Ang

2024High Temperature Corrosion of Materials18 citationsDOIOpen Access PDF

Abstract

Abstract High temperature corrosion and slag deposition significantly reduce the thermal efficiency and lifespan of biomass-fired boilers. Surface modification with protective coatings can enhance boiler performance and prevent commercial losses due to maintenance and damage. This review focuses on the development of corrosion-resistant coatings (CRCs) and anti-slagging coatings (ASCs) over the past decade. CRCs are explored through thermal spray processes that include arc spray, atmospheric plasma spray (APS), high-velocity oxygen fuel (HVOF), detonation gun (D-gun™), and cold spray. Studies on alloys, ceramics, and ceramic–metal composites are summarised, highlighting the high temperature corrosion prevention mechanisms and discussing new coating materials. ASCs are reviewed in the context of advancements via thermal spray and slurry spray methods. The mechanisms for slag reduction, testing methods to evaluate ASC effectiveness, and the necessary architecture for preventing slag deposition are examined. A lab-based rig simulating fly ash deposition onto water-cooled coating coupons for anti-slagging investigations is also presented. Further research is needed to develop and evaluate materials for ASCs effectively. Graphical Abstract

Topics & Concepts

Thermal sprayingCorrosionMaterials scienceMetallurgyHigh-temperature corrosionCoatingCeramicGas dynamic cold sprayBoiler (water heating)SlurryDeposition (geology)Waste managementComposite materialEngineeringSedimentPaleontologyBiologyHigh-Temperature Coating BehaviorsAdvanced ceramic materials synthesisFluid Dynamics and Heat Transfer