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生物质电站锅炉高温腐蚀及防控技术综述OA

A review on the high temperature corrosion and protection technology in biomass power plant boilers

中文摘要英文摘要

[意义]生物质发电对我国实现"双碳"目标至关重要,但其锅炉普遍存在因燃料高氯、高碱引发的高温腐蚀问题,严重制约了机组蒸汽参数与效率的提升.本文旨在系统梳理该问题的机理、影响因素及防控技术,为相关研究与实践提供参考.[分析]首先概括了生物质锅炉高温腐蚀的典型特征,系统阐述了氯、碱金属和硫等关键介质的腐蚀作用机理;进而分析了温度、烟气成分、灰分组成及材料属性等因素对腐蚀行为的影响规律;最后,归纳总结了燃料预处理、涂层防护、添加剂抑制及外置床等经试验或工程验证的防控技术,并比较了它们的应用特点及经济性.[展望]未来研究可从三方面深化:一是融合先进材料科学技术揭示多介质耦合腐蚀的微观机理;二是开发高温稳定性好的新型防护材料;三是构建"燃料-添加剂-运行-防护"一体化协同控制策略.通过机理研究、材料开发与系统防控技术的协同创新,有望为生物质锅炉安全、高效、低成本运行提供关键支撑.

[Significance]Biomass power generation plays a crucial role in China's efforts to achieve the"dual carbon"goal.The goal focuses on peaking carbon dioxide emissions and reaching carbon neutrality within a predefined timeline.However,high chlorine and alkali metal contents are naturally present in biomass fuels.Due to this characteristic,biomass boilers are prone to severe high-temperature corrosion during operation.The long-term reliability and safety of boiler systems are undermined by this issue.A systematic and comprehensive review of high-temperature corrosion in biomass boilers is provided in this paper.The corrosion mechanisms,influencing factors,and mitigation technologies are covered,with the aim of providing a valuable reference for both research and engineering practices.[Analysis]Firstly,the typical characteristics of high-temperature corrosion in biomass-fired boilers are outlined.On this basis,the corrosion mechanisms involving key media such as chlorine,alkali metals,and sulfur are elaborated.Subsequently,the influence of multiple critical factors on corrosion behavior is analyzed in detail.The reaction rate of corrosive processes is directly regulated by temperature.The corrosive environment is changed by flue gas composition.The formation of protective or corrosive deposits is affected by ash composition.The intrinsic corrosion resistance of boiler components is determined by material properties.Finally,a series of prevention and control technologies are summarized.These technologies have been validated through laboratory experiments or long-term engineering practice.They include fuel pretreatment(to reduce corrosive constituents),coating protection(to isolate metal surfaces from corrosive media),additive inhibition(to suppress harmful chemical reactions),and external fluidized beds(to optimize combustion and corrosion conditions).The unique application features,advantages,limitations and economic efficiency of each technology are also discussed.[Prospect]Future research can be deepened from three key aspects.First,advanced materials science should be integrated to elucidate the microscopic mechanisms of multi-medium coupled corrosion.Interface reactions and damage evolution processes at the atomic and molecular levels can be uncovered.Second,efforts should be intensified to develop novel high-performance protective materials.These materials should be endowed with exceptional high-temperature stability,corrosion resistance and mechanical strength.The harsh operating environments of biomass boilers must be withstood by them.Third,an integrated and collaborative control strategy should be established.This strategy is synergistically combined with fuel pretreatment,scientific additive selection,optimized operational parameters,and advanced material protection.Full-cycle,multi-dimensional corrosion control is the ultimate goal to be achieved.Through the synergistic innovation of mechanism research,advanced material development and systematic prevention-and-control technologies,it is expected to provide essential support for the safe,efficient,and low-cost operation of biomass boilers.

刘晓博;蒋旭光;刘珍;刘可亮;俞苗

西子清洁能源装备制造股份有限公司,浙江 杭州 310021||浙江大学能源高效清洁利用全国重点实验室,浙江 杭州 310027浙江大学能源高效清洁利用全国重点实验室,浙江 杭州 310027西子清洁能源装备制造股份有限公司,浙江 杭州 310021西子清洁能源装备制造股份有限公司,浙江 杭州 310021西子清洁能源装备制造股份有限公司,浙江 杭州 310021

生物质锅炉高温腐蚀腐蚀机理防控技术

biomass boilerhigh-temperature corrosioncorrosion mechanismprotection technology

《热力发电》 2026 (6)

15-27,13

国家重点研发计划项目(2018YFC1901302)内蒙古自治区"揭榜挂帅"项目(2024JBGS0026) National Key Research and Development Program(2018YFC1901302)Inner Mongolia Autonomous Region"Unveiling the List and Appointing Leaders"Project(2024JBGS0026)

10.19666/j.rlfd.202510037

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