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采用ASTM D1275-B腐蚀性硫检测方法和扫描电子显微镜技术,研究变压器绝缘油硫腐蚀的分析方法。对变压器绝缘油进行腐蚀性硫检测,判断油中有无腐蚀性硫;对硫腐蚀的铜片进行形貌和能谱分析,测量腐蚀产物中硫含量和腐蚀产物层的厚度。测量结果表明,硫腐蚀程度随硫含量和产物层厚度的增加而增大。变压器绝缘油硫腐蚀的形貌和能谱分析,弥补了腐蚀性硫检测方法在判断硫腐蚀程度方面的不足,该方法可以判断硫腐蚀程度,还能够判断腐蚀性硫检测结果的准确性,因此ASTM D1275-B法结合扫描电子显微镜技术是分析变压器绝缘油硫腐蚀的有效方法。 相似文献
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《绝缘材料》2016,(11)
变压器油中含有的腐蚀性硫二苄基二硫醚对变压器的安全稳定运行带来严重威胁。吸附除硫技术可以脱除绝缘油中的腐蚀性硫,从源头上解决腐蚀性硫对铜导线的腐蚀问题,但是吸附除硫的效率有待提高。设计了一种吸附剂-氧化剂复合体系,通过优化吸附剂、氧化剂、吸附剂粒径和吸附时间提升吸附效率。同时对经优化后的吸附剂-氧化剂复合体系处理后的绝缘油进行腐蚀性试验。试验结果表明:13X分子筛相对于目前广泛使用的白土等吸附剂对二苄基二硫醚腐蚀性硫的吸附效率更高。同时高锰酸钾与13X分子筛的复合使用提高了腐蚀性硫的去除效率。13X分子筛的粒径对吸附效果影响明显,通过优化,13X分子筛对绝缘油中二苄基二硫醚的去除率得到提高。吸附剂-氧化剂复合体系的吸附平衡时间较短,吸附处理4 h即可达到吸附平衡。 相似文献
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The influencing factors (temperature, electric field, and oxygen) of sulfur attack in transformer oil are studied through comparative tests on new oil, oil in service, and these two oils with the deactivator additive BTA (benzotriazole, C6H4N3H). The influence of these factors on the chemical reaction between copper and corrosive sulfur is analyzed in further. The results show that temperature, electric field, and oxygen can promote the reaction between copper and corrosive sulfur. Moreover, oxygen also accelerates the aging of the insulating oil. On the contrary, recharging nitrogen can remove oxygen and reduce sulfur's corrosive activity. Adding the BTA deactivator can also prevent corrosion, even during the accelerated aging of oil with oxygen. © 2013 Institute of Electrical Engineers of Japan. Published by John Wiley & Sons, Inc. 相似文献