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机构地区:[1]南京化工大学材料院金属表面科学与工程系,江苏南京210009
出 处:《表面技术》2002年第6期46-48,共3页Surface Technology
摘 要:通过静态和动态模拟试验 ,考察了锅炉清洗过程中Fe3+ 和流速对腐蚀速率的影响 ,并评价了 4种缓蚀剂。结果表明 ,Fe3+ 具有加速清洗液腐蚀碳钢的作用 ,使 2 0A碳钢的腐蚀速率成倍增大 ;清洗液中的腐蚀速率均随清洗流速的增大而增大 ,但各种缓蚀剂的缓蚀效果的依次关系在 3种流动状态下不变。通过模拟试验找出锅炉清洗过程中的安全清洗流速和缓蚀剂安全添加量 ,JF 10 6安全清洗流速为 0 .5m s ,添加量至少为 0 .2 % ,其他缓蚀剂清洗流速小于 0 .5m s。In this work, the influence of Fe 3+ ion and flow velocity of cleaning solutionon corrosion rate in chemical cleaning in boiler is discussed through the static test and dynamic simulation test. Also, four kinds of corrosion inhibitor are appraised.The results show that, Fe 3+ ion can accelerate the corrosion of 20A steel in the cleaning solution enormously; with the increase in the flow velocity of cleaning solution, the corrosion rate increases, and the inhibiting effects of the inhibitors keep an proper order at three different flow conditions. The safe flowing velocity of cleaning solution and the safe amount of inhibitor in the process of cleaning boiler can be decided through simulation tests. The safe flowing velocity of the cleaning solution including JF-106 is 0.5m/s,and the amount of it is at least 0.2%; the safe flowing velocity of the cleaning solution including other inhibitors is less than 0.5m/s.
关 键 词:模拟试验法 选用 锅炉 化学清洗 缓蚀剂 缓蚀率
分 类 号:TK228[动力工程及工程热物理—动力机械及工程]
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