Application of Coatings to Alleviate Fireside Corrosion on Heat Transfer Tubes during the Combustion of Low-Grade Solid Fuels: A Review

Abstract: To address the energy and environmental issues related to the use of traditional fossil fuels, the thermal utilization of low-grade solid fuels such as low-rank coal, biomass, and municipal solid waste has gradually attracted much attention. During the combustion of the low-grade solid fuels, one of the major operation problems is the fireside corrosion on heat transfer tubes, which easily causes the frequent replacement of tubes and shutdown of boilers, largely reducing the energy and economic performances. I… Show more

“…One recommendation was to use a coating that may increase the corrosion resistance of the materials. Accordingly, Zhang X. et al 87 work has compiled some coating materials that have been studied to combat the hot corrosion in power plants with low-grade solid fuels. According to Zhang, high velocity oxy-fuel (HVOF) was the most preferred depositing method for researchers to study the hot corrosion behavior of coatings.…”

Research hotspots and future trends of hot corrosion research: a bibliometric analysis

“…One recommendation was to use a coating that may increase the corrosion resistance of the materials. Accordingly, Zhang X. et al 87 work has compiled some coating materials that have been studied to combat the hot corrosion in power plants with low-grade solid fuels. According to Zhang, high velocity oxy-fuel (HVOF) was the most preferred depositing method for researchers to study the hot corrosion behavior of coatings.…”

Research hotspots and future trends of hot corrosion research: a bibliometric analysis

“…Leng et al 6 present a review on the mechanisms governing the cold flow properties (CFPs) of biodiesel and provide a critical discussion on the potential methods for improving the CFPs of biodiesel. Zhang et al 7 systematically summarize the causes and mechanisms of corrosion on heat transfer tubes during the combustion of low-grade solid fuels and present the status and prospectives of the application of coatings to alleviate fireside corrosion. Peng et al 8 provide a comprehensive review of the formation, measurement, and control of dioxins during the incineration of municipal solid wastes.…”

Virtual Special Issue of Recent Research Advances in China: Thermochemical Processing of Biomass and Solid Wastes

“…The main problems with the anticorrosive coating of industrial heat exchange equipment are that the coating with a good anticorrosion property has a poor heat transfer property and the coating with a desirable heat transfer property has a poor anticorrosion property. Corrosion of heat exchange equipment is a main reason for its failure, and the working efficiency of the equipment is dependent on its heat transfer property. , Epoxy or modified epoxy resin are used extensively for anticorrosive coatings due to their low cost, good barrier property, and chemical stability. , But, the low thermal conductivity of epoxy (∼0.20 W/(m·K)) limits their applications as a corrosion protective coating for industrial heat exchange equipment . And the existence of microdefects and pinholes of epoxy coating may result in the deterioration of corrosion protection performance.…”

“…Corrosion of heat exchange equipment is a main reason for its failure, and the working efficiency of the equipment is dependent on its heat transfer property. 1,2 Epoxy or modified epoxy resin are used extensively for anticorrosive coatings due to their low cost, good barrier property, and chemical stability. 3,4 But, the low thermal conductivity of epoxy (∼0.20 W/(m•K)) limits their applications as a corrosion protective coating for industrial heat exchange equipment.…”

High-Efficiency Preparation of Reduced Graphene Oxide by a Two-Step Reduction Method and Its Synergistic Enhancement of Thermally Conductive and Anticorrosive Performance for Epoxy Coatings