用加压加速氧化法评价生物柴油中添加合成抗氧化剂和生物基抗氧化剂的稳定性

N. Djurisic-Mladenovic, M. Tomic, B. Pajin, Maja Buljovčić, I. Lončarević, Milica Rankov-Sicar
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摘要

这项工作通过RapidOxy测试器检验加压加速氧化作为测定生物柴油氧化稳定性的替代方法。以向日葵油为基础的生物柴油是用抗氧化剂合成并处理的:叔丁基对苯二酚(TBHQ)——一种以其强大的保护作用而闻名的合成抗氧化剂,以及从葡萄园废料中提取的生物基抗氧化剂混合物VWEeth。RapidOxy法测定了不同温度(110 ~ 140℃)和不同浓度(250 ~ 2000 mg dm-3)条件下四氢大麻酚的抗氧化能力;通过与标准rangimat方法获得的相关数据进行比较,对所选结果进行评价。将两种高剂量的VWEeth添加到生物柴油中(87500和150000 mg dm-3),并在140℃下使用RapidOxy方法进行分析。两种抗氧化剂在所有应用剂量下都对提高生物柴油的氧化稳定性有有益的影响,但并不是所有的改善都达到了EN14214标准所确定的最低稳定性。thbhq的最低添加量似乎与VWEeth的测试剂量相似,但这些添加量并未使诱导期超过8 h的极限;两倍高的thbhq量在这方面是成功的,将初始氧化稳定性提高了约2倍,这是由两种方法确定的。RapidOxy方法被证明是一种非常快速的方法,适用于大量样品的检测,这对于不同类型和剂量的抗氧化剂的高效检测尤为重要。
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Stability evaluation of biodiesel supplemented with synthetic and bio-based antioxidants by a pressurized accelerated oxidation method
This work examines pressurized accelerated oxidation by a RapidOxy tester as an alternative method for determination of biodiesel oxidation stability. Sunflower oil-based biodiesel was synthesized and treated with antioxidants: tert-butylhydroquinone (TBHQ) - a synthetic antioxidant known for its powerful protective effect, and a mixture of bio-based antioxidant compounds extracted from vinery waste, VWEeth. The antioxidant potency of TBHQ was evaluated at varying temperatures (110 - 140 ?C) and concentrations (250 - 2,000 mg dm-3) by the RapidOxy method; assessment of selected results was performed by comparison with relevant data obtained by the standard Rancimat method. VWEeth was added in two high dosages to biodiesel (87,500 and 150,000 mg dm-3) and analyzed at 140 ?C by the RapidOxy method. Both antioxidants at all applied dosages showed beneficial effects on improving the oxidative stability of biodiesel, but not all of the achieved improvements reached the stability minimum identified by the EN14214 standard. The lowest addition of TBHQ seemed to have a similar effect as the tested dosages of VWEeth but these additions did not increase the induction period above the limit of 8 h; two-fold higher quantity of TBHQ was successful in this respect, increasing the initial oxidation stability by a factor of about 2, which was determined by both methods. The RapidOxy method proved to be a very fast method suitable for testing a large number of samples, which is particularly important for efficient testing of different types and doses of antioxidants.
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