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UPDATE OF THE WATER CHEMISTRY EFFECT ON THE FLOW-ACCELERATED CORROSION RATE OF CARBON STEEL: INFLUENCE OF HYDRAZINE, BORIC ACID, AMMONIA, MORPHOLINE AND ETHANOLAMINE

机译：对碳钢流动加速腐蚀速率的水化学影响：肼，硼酸，氨，吗啉和乙醇胺的影响

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The influence of the water chemistry on Flow-Accelerated Corrosion (FAC) affecting carbon steel components has been studied for many years and is relatively well known and taken into account by the models. Nonetheless, experimental studies were conducted in the last few years at EDF on the CIROCO loop in order to check the influence of the water chemistry parameters (hydrazine, boric acid, ammonia, morpholine and ethanolamine) on the FAC rate of carbon steel in one phase flow conditions. The hydrazine impact on the FAC rate was shown to be minor in EDF's chemistry recommendation range, compared to other parameters' effects such as the pH effect. The presence of boric acid in the nominal secondary circuit conditions was negligible. Finally, as expected, the nature of the chemical conditioning (ammonia, morpholine or ethanolamine) did not modify the FAC rate, the influencing chemical variable being the at-temperature pH in one-phase flow conditions.

机译：水化学对影响碳钢组分的流动加速腐蚀（FAC）的影响已经研究了多年，并且通过模型相对众所周知并考虑到。尽管如此，在Ciroco循环上的edf在过去几年中进行了实验研究，以检查水化学参数（肼，硼酸，氨，吗啉和乙醇胺）对一相中碳钢的影响流动条件。与其他参数的效果相比，EDF的化学建议范围内显示对Fac率的含水氮杂含量在eDF的化学推荐范围内进行了较小的影响。标称二级电路条件下硼酸的存在可忽略不计。最后，正如预期的那样，化学调理（氨，吗啉或乙醇胺）的性质未改变FAC率，影响化学变量是单相流动条件下的高温pH。

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《International Conference on Environmental Degradation of Materials in Nuclear Power Systems 》|2007年||共13页
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E. M. Pavageau; O. de Bouvier; S. Trevin; J. L. Bretelle; L. Dejoux;
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4. UPDATE OF THE WATER CHEMISTRY EFFECT ON THE FLOW-ACCELERATED CORROSION RATE OF CARBON STEEL: INFLUENCE OF HYDRAZINE, BORIC ACID, AMMONIA, MORPHOLINE AND ETHANOLAMINE [C] . E.-M. Pavageau, O. de Bouvier, S. Trevin, 13th International Conference on Environmental Degradation of Materials in Nuclear Power Systems 2007 . 2007

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UPDATE OF THE WATER CHEMISTRY EFFECT ON THE FLOW-ACCELERATED CORROSION RATE OF CARBON STEEL: INFLUENCE OF HYDRAZINE, BORIC ACID, AMMONIA, MORPHOLINE AND ETHANOLAMINE

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