Corrosion monitoring of ferritic-martensitic steels in molten salt environments for CSP applications

SOLARPACES 2018: International Conference on Concentrating Solar Power and Chemical Energy Systems Pub Date : 2019-07-26 DOI:10.1063/1.5117552

F. Pérez, V. Encinas-Sánchez, M. I. Lasanta, M. Miguel, G. García-Martin

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引用次数: 4

Abstract

In the present work, the behaviour of a ferritic-martensitic steel, VM12, in Solar Salt was monitored by EIS. To this end corrosion tests at 580°C were carried out for 1000 h. According to the EIS results, a diffusion-controlled reaction occurred during test, which indicates the formation of a porous corrosion layer. The EIS results also shown a corrosion rate of 50 µm·year−1 after 1000 h of testing. Results obtained by EIS were in agreement with the ones obtained by gravimetric and SEM-EDX analysis. Thus, results showed the possible suitability of EIS for monitoring corrosion processes in real-time of steels in CSP plants.In the present work, the behaviour of a ferritic-martensitic steel, VM12, in Solar Salt was monitored by EIS. To this end corrosion tests at 580°C were carried out for 1000 h. According to the EIS results, a diffusion-controlled reaction occurred during test, which indicates the formation of a porous corrosion layer. The EIS results also shown a corrosion rate of 50 µm·year−1 after 1000 h of testing. Results obtained by EIS were in agreement with the ones obtained by gravimetric and SEM-EDX analysis. Thus, results showed the possible suitability of EIS for monitoring corrosion processes in real-time of steels in CSP plants.

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铁素体-马氏体钢在CSP应用熔盐环境中的腐蚀监测

本文用EIS对铁素体-马氏体钢VM12在太阳盐中的行为进行了监测。为此，在580℃下进行了1000小时的腐蚀试验。根据EIS结果，在测试过程中发生了扩散控制反应，这表明多孔腐蚀层的形成。EIS结果还显示，经过1000小时的测试，腐蚀速率为50µm·年−1。EIS分析结果与重量分析和SEM-EDX分析结果一致。因此，结果表明EIS可能适合于实时监测CSP厂钢的腐蚀过程。本文用EIS对铁素体-马氏体钢VM12在太阳盐中的行为进行了监测。为此，在580℃下进行了1000小时的腐蚀试验。根据EIS结果，在测试过程中发生了扩散控制反应，这表明多孔腐蚀层的形成。EIS结果还显示，经过1000小时的测试，腐蚀速率为50µm·年−1。EIS分析结果与重量分析和SEM-EDX分析结果一致。因此，结果表明EIS可能适合于实时监测CSP厂钢的腐蚀过程。

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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SOLARPACES 2018: International Conference on Concentrating Solar Power and Chemical Energy Systems

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