Copper strip corrosion testing in hydrocracked base oil in the presence of different inhibitors

Chemical Industry Pub Date : 2022-01-01 DOI:10.2298/hemind220113012m

B. Malinovic, A. Borkovic, T. Djuričić

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Abstract

In this paper, the corrosion test of copper in hydrocracked base oil HC-6 was performed in the presence of an additive for extremely high pressures (EP additive) in different concentrations. EP additives are used to reduce wear in industrial applications, under high load conditions. Since most of these additives are sulfur-based, whose compounds can be corrosive at high temperatures, their use leads to corrosion of some materials. To prevent corrosion in the base oil with the EP additive, three commercial corrosion inhibitors are added. By chemical composition, the inhibitor RC 8210 is a derivate of dimercaptothia-diazole, RC 4220 is a synthetic neutral calcium sulfonate, and IRGAMET 39 is a derivative of tolutriazole. Efficiency of the inhibitors was monitored by standard test methods for corrosiveness to copper arising from petroleum products by the copper strip test (ASTM D-130) and the gravimetric method, while oxidation stability of the base oil was monitored by peroxide number determination. Oxidation was performed at 100?1?C for 3 and 24 h. Results of these studies have shown that IRGAMET 39 is the most effective inhibitor in the presence of the EP additive at both examined oxidation times.

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不同缓蚀剂在加氢裂化基础油中的腐蚀试验

本文在不同浓度的极高压添加剂(EP添加剂)的存在下，对加氢裂化基础油HC-6中的铜进行了腐蚀试验。EP添加剂用于减少工业应用中高负载条件下的磨损。由于这些添加剂大多是硫基的，其化合物在高温下具有腐蚀性，因此它们的使用会导致某些材料的腐蚀。为了防止EP添加剂对基础油的腐蚀，添加了三种商业缓蚀剂。从化学成分上看，抑制剂RC 8210为二巯基硫-二唑衍生物，RC 4220为合成中性磺酸钙，IRGAMET 39为甲苯三唑衍生物。抑制剂的效率通过铜条试验(ASTM D-130)和重量法对石油产品中铜的腐蚀性进行标准测试，而基础油的氧化稳定性通过过氧化值测定来监测。在100℃下进行氧化。这些研究的结果表明，IRGAMET 39是在EP添加剂存在下最有效的抑制剂，在两个检测的氧化时间。

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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Chemical Industry

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