Crevice Corrosion of Tubing in a Hydraulic-Oil Cooler

ASM Failure Analysis Case Histories: Power Generating Equipment Pub Date : 2019-06-01 DOI:10.31399/asm.fach.power.c0048708

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Abstract

The horizontal heat-exchanger tubes made of copper alloy C70600, in one of two hydraulic-oil coolers in an electric power plant, leaked after 18 months of service. River water was used as the coolant in the heat-exchanger tubes. Several nodules on the inner surface and holes through the tube wall, which appeared to have formed by pitting under the nodules, were revealed by visual examination. Steep sidewalls, which indicated a high rate of attack, were revealed by microscopic examination of a section through the pit which had penetrated the tube wall. The major constituent of reddish deposit on the inner surfaces of the tubes was revealed to be iron oxide and slight manganese dioxide. Effluent from steel mills upstream was indicated by the presence of these and other constituents to be the source of most of the solids found in the tubes. It was concluded that the tubing failed by crevice corrosion. The tubing in the cooler was replaced, and cooling-water supply was changed from river to city water, which contained no dirt to deposit on the tube surfaces. An alternate solution of installing replacement tubes in the vertical position to make deposition of solids from river water less likely was suggested.

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液压油冷却器油管缝隙腐蚀研究

某电厂两个液压油冷却器中的一个用C70600铜合金制成的卧式热交换器管在使用18个月后发生泄漏。河水被用作热交换器管内的冷却剂。内表面可见数个结节，管壁上可见由结节下的点蚀形成的孔洞。陡峭的侧壁，这表明攻击率高，通过显微镜检查的部分通过坑，穿透管壁显示。管内表面微红色沉积物的主要成分为氧化铁和少量二氧化锰。这些和其他成分的存在表明，来自上游钢厂的废水是管道中发现的大多数固体的来源。分析认为，油管的失效原因是裂缝腐蚀。冷却器内的管道被更换，冷却水供应从河水改为城市水，管道表面没有污垢沉积。另一种解决方案是在垂直位置安装替代管，以减少来自河水的固体沉积的可能性。

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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ASM Failure Analysis Case Histories: Power Generating Equipment

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