Corrosion Behavior of Aluminum in Fossil Diesel Fuel and Biodiesel From Chicken Eggshell‐Alumina‐Catalyzed Waste Cooking Oil

Materials and Corrosion Pub Date : 2024-09-03 DOI:10.1002/maco.202414510

Lekan Taofeek Popoola, Alfred Ogbodo Agbo, Usman Taura, Adeyinka Sikiru Yusuff, Yuli Panca Asmara, Olusegun A. Olagunju, Onyemaechi Melford Chima

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Abstract

To curb environmental pollution emanating from the exhausts of engines using fossil diesel fuel (DF), studies on the use of biodiesel from renewable energy source are ongoing. However, engine components have been observed to corrode easily in biodiesels. In this study, a comparative study of the corrosion rate of aluminum coupon (AC) in biodiesel from waste cooking oil over chicken eggshell‐supported alumina catalyst (WCOB) and fossil DF was executed. Weight loss method was used to examine the corrosion rate. Highest corrosion rates of 0.0381 and 0.0052 mm year−1 were recorded for AC in WCOB and DF, respectively. The developed mathematical models proved effective for corrosion rate prediction. At optimum prediction, the minimum corrosion rates for the AC in WCOB and DF were 1.822 × 10−3 and 1.222 × 10−3 mm year, respectively. Characterization revealed pits formation and presence of oxygen and carbon on AC surface with loss of Al ions from the AC surface into WCOB and DF after corrosion. In conclusion, all results revealed high corrosion rates of AC in WCOB than DF.

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化石柴油和由鸡蛋壳-氧化铝催化的废食用油制成的生物柴油中铝的腐蚀行为

为了遏制使用化石柴油（DF）的发动机排出的废气对环境造成的污染，有关使用可再生能源生物柴油的研究正在进行中。然而，据观察，发动机部件在生物柴油中很容易腐蚀。在这项研究中，对废弃食用油生物柴油在鸡蛋壳支撑的氧化铝催化剂（WCOB）和化石 DF 上的铝券（AC）腐蚀率进行了比较研究。采用失重法检测腐蚀率。在 WCOB 和 DF 中，AC 的最高腐蚀率分别为 0.0381 和 0.0052 毫米/年-1。事实证明，所建立的数学模型可以有效预测腐蚀速率。在最佳预测条件下，WCOB 和 DF 中 AC 的最小腐蚀速率分别为 1.822 × 10-3 和 1.222 × 10-3 毫米年。表征结果表明，AC 表面形成凹坑并存在氧和碳，腐蚀后，Al 离子从 AC 表面流失到 WCOB 和 DF 中。总之，所有结果都表明 AC 在 WCOB 中的腐蚀率高于 DF。

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Materials and Corrosion

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