吴多利,郑家银,刘苏,曹攀,魏新龙,张超.垃圾焚烧电厂过热器腐蚀影响因素及防护涂层研究进展[J].表面技术,2023,52(2):158-171, 195.
WU Duo-li,ZHENG Jia-yin,LIU Su,CAO Pan,WEI Xin-long,ZHANG Chao.Research Progress on Corrosion Influencing Factors and Protective Coatings of Superheater in Waste Incineration Power Plants[J].Surface Technology,2023,52(2):158-171, 195 |
| 垃圾焚烧电厂过热器腐蚀影响因素及防护涂层研究进展 |
| Research Progress on Corrosion Influencing Factors and Protective Coatings of Superheater in Waste Incineration Power Plants |
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| DOI:10.16490/j.cnki.issn.1001-3660.2023.02.0014 |
| 中文关键词: 垃圾焚烧发电 高温腐蚀 防护涂层 过热器管道 |
| 英文关键词:waste incineration for power generation high-temperature corrosion protective coatings superheater tubes |
| 基金项目:国家自然科学基金(52101100);江苏省高校自然科学研究面上项目(21KJB430008);扬州大学“青蓝工程”项目(2022) |
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| Author | Institution |
| WU Duo-li | College of Mechanical Engineering, Yangzhou University, Jiangsu Yangzhou 225127, China |
| ZHENG Jia-yin | College of Mechanical Engineering, Yangzhou University, Jiangsu Yangzhou 225127, China |
| LIU Su | College of Mechanical Engineering, Yangzhou University, Jiangsu Yangzhou 225127, China |
| CAO Pan | College of Mechanical Engineering, Yangzhou University, Jiangsu Yangzhou 225127, China |
| WEI Xin-long | College of Mechanical Engineering, Yangzhou University, Jiangsu Yangzhou 225127, China |
| ZHANG Chao | College of Mechanical Engineering, Yangzhou University, Jiangsu Yangzhou 225127, China |
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| 中文摘要: |
| 垃圾焚烧电厂过热器管道的高温腐蚀一直是制约电厂焚烧温度的关键问题,因此研究开发耐高温、耐腐蚀、长寿命的关键服役材料是保证垃圾焚烧炉正常有序运转及安全生产的关键。对近年来垃圾焚烧电厂腐蚀问题的研究现状进行了梳理,对近期垃圾焚烧电厂过热器腐蚀与防护的研究成果进行了综述。首先,从过热器腐蚀影响因素的角度,归纳了焚烧环境中存在氯、硫、温度、水蒸气等诸多因素影响下的腐蚀特点,对各个影响因素下的腐蚀机理进行了概述,氯作为影响腐蚀的关键因素,重点对氯导致腐蚀的活性氧化机理和电化学机理进行了阐述。其次,讨论了应用在过热器表面的涂层制备技术的发展,包括热喷涂、热扩散、堆焊、激光熔覆等,探讨了制备方法,以及应用技术的优缺点。分析了材料成分(Ni、Mo、Cr、Al、Si、Pt等元素)的添加与涂层耐腐蚀性能之间的关系。再次,从焚烧垃圾预处理的角度,进一步讨论前期可通过对垃圾脱水、添加共燃剂等方法,达到脱硫、脱氯的目的,以此降低烟气中硫、氯的含量,减小其对腐蚀的影响。最后,对垃圾焚烧电厂过热器管道材料和涂层的选择进行了总结和展望。 |
| 英文摘要: |
| High-temperature corrosion of superheater tubes has been a critical problem restricting incineration temperature. Therefore, research and development of crucial service materials with high-temperature corrosion resistance and long life is the key to ensure regular operation and safe production of waste incinerators. To effectively improve waste incineration temperature and operational safety, and improve power generation efficiency, the preparation of protective coatings on the surface of superheater pipes has become a key measure to solve high-temperature corrosion. In this work, the research status of the hot corrosion in waste incineration boilers in recent years was reviewed, and the research results of corrosion and protection of superheater in waste incineration boilers were summarized. Firstly, from the perspective of the factors affecting the corrosion of the superheater, the corrosion characteristics under the influence of many factors such as chlorine, sulfur, temperature, water vapor, etc., were summarized, and the corrosion mechanism under each influencing factor was analyzed. Cl and S were the critical problems affecting corrosion. Several main high-temperature chlorine corrosion mechanisms of waste incineration were focused on the analysis, including chloride ion induced active corrosion and electrochemical corrosion. The dual effect of sulfur on corrosion, its corrosion mechanism, and sulfur can lead to the transformation from the more corrosive chloride into less corrosive sulfate under certain circumstances. Secondly, the development of coating preparation technology applied on the superheater surface was discussed, including thermal spraying, thermal diffusion, surfacing, laser cladding, etc. Specific reasons for improving alloys' corrosion resistance by various technologies were elucidated. In terms of the existing high-temperature anti-corrosion coating technology, the arc spraying technology had huge advantages in the protection of superheater tubes of the waste incinerator due to its simple equipment, low cost, high deposition efficiency and flexible operation. The continuous development of powder core wire composition design showed great potential and was expected to further improve the high-temperature corrosion resistance of arc sprayed coatings. This technology may become an effective technology for on-site preparation of protective coatings. Ultra-high-speed laser cladding technology will also be the key development direction for the preparation of superheater tube protective coatings in the future due to its unique advantages and extremely high cladding efficiency for rotary parts. The relationship between the addition of material components (such as Ni, Mo, Cr, Al, Si, Pt and other elements) and the corrosion resistance of the coating was analyzed. The harmless disposal of flue gas was also a vital issue in the research of key service materials for waste incineration. From the perspective of incineration of garbage pretreatment, the early dewatering of garbage was discussed further. Combustion additives were added to achieve the purpose of desulfurization, dechlorination, to reduce the sulfur and chlorine content in flue gas and reduce the impact of corrosion. Because Cl, S, water vapor, and other factors in garbage are almost impossible to eliminate, when the garbage incineration temperature is too high, the corrosion of the critical heating surface still cannot be avoided entirely. The existing problems and the future development trends of typical key materials and coatings on the superheater pipe of waste incinerators were also summarized and proposed, respectively, which would provide a valuable reference for further popularization and application of typical essential service materials of waste incinerators. |
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