正磷酸锌可减少硝酸盐对铅焊料的腐蚀

IF 4.8 Q1 ENVIRONMENTAL SCIENCES ACS ES&T water Pub Date : 2024-07-30 DOI:10.1021/acsestwater.3c0078610.1021/acsestwater.3c00786
Kathryn G. Lopez*, Jinghua Xiao, Christopher Crockett, Christian Lytle, Haley Grubbs and Marc Edwards, 
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引用次数: 0

摘要

硝酸盐引起的含铅焊料颗粒在饮用水中的剥落并不能被磷酸盐抑制剂充分控制,尽管添加锌可以提高抑制剂的性能。在硝酸盐含量高达 12 毫克/升的水中使用涂有新铅锡焊料的铜片进行的研究表明,正磷酸盐锌能减少 90% 以上的铅释放,其效果优于单独使用正磷酸盐。在硝酸盐含量较高的水中,使用了几十年的铅锡焊料的收割管道的铅释放和剥落情况在使用正磷 酸锌几个月后有所改善,但并没有消除。在一家原水硝酸盐含量较高的自来水公司使用时,每月的家庭现场取样显示,在连续 6 个月全量投加正磷酸锌后,第 90 百分位数的铅含量降至行动水平以下。对管道鳞片的扫描电子显微镜 (SEM) 分析表明,锌和正磷酸盐会沉积在铜-焊料界面上,并可能作为一种混合抑制剂发挥作用,锌会抑制铜管上的阴极反应,磷酸盐会限制阳极反应,而正磷酸盐锌则会优先沉积在阳极和阴极之间的电化界面上。对于因季节性径流或原水变化而导致硝酸盐含量较高的水域,需要更新腐蚀控制指南。研究发现,正磷 酸锌可减少阳极和阴极腐蚀,同时优先在铜-焊料界面沉淀。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Zinc Orthophosphate Can Reduce Nitrate-Induced Corrosion of Lead Solder

Nitrate-induced spallation of lead-bearing solder particles into drinking water is not sufficiently controlled by phosphate-based inhibitors, although adding zinc can improve their performance. Studies using copper coupons coated with new lead–tin solder in water with up to 12 mg/L nitrate demonstrated that zinc orthophosphate reduced lead release by more than 90% and outperformed orthophosphate alone. Lead release and spallation from harvested pipes with decades-old lead–tin solder in a high nitrate water were improved but not eliminated with zinc orthophosphate over a period of months. When applied at a water utility with high source water nitrate, monthly in-home field sampling showed that 90th percentile lead levels dropped below the action level after dosing zinc orthophosphate at full scale for 6 months. Scanning electron microscopy (SEM) analysis of pipe scales revealed that zinc and orthophosphate codeposit at the copper–solder interface and may act as a mixed inhibitor, with zinc inhibiting the cathodic reaction on the copper pipe, phosphate limiting the anodic reaction, and an added benefit of zinc orthophosphate preferentially precipitating at the galvanic interface between the anode and the cathode. Updates to corrosion control guidance for waters with higher nitrate due to seasonal runoff or source water changes are needed.

Zinc orthophosphate reduced nitrate-induced solder corrosion in laboratory studies and at a water utility. It was found to reduce anodic and cathodic corrosion while preferentially precipitating at the copper–solder interface.

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