Thermal conversion of aviation oils

Научный вестник МГТУ ГА Pub Date : 2023-10-30 DOI:10.26467/2079-0619-2023-26-5-65-80

E. A. Shaporova, S. V. Vasilevich, S. O. Stoiko, V. V. Shchur

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Abstract

These days, strict requirements to aeronautical equipment are imposed to enhance reliability, durability, and environmental compatibility. Aeronautical equipment operation reliability depends not only on its structural and technologic abilities, but also on the fact how aviation oils, fuels and technical fluid meet quality requirements during operation. During the aircraft engine operation, oils are subjected to the thermal impact. As a consequence, their properties and composition change which can affect the engine operation, on the whole. The most promising means of improving thermal resistance of aviation oils is developing new ones and improving available oil compositions. Therefore, it is feasible to analyze the kinetic properties of the oil thermal conversion which will make it possible to predict their resistance within the extensive temperature range. The paper investigates thermal decomposition kinetics of aviation oils MS-8P, TN-98 and TN-600 used on different types of aircraft in civil aviation of the Republic of Belarus by the method of a thermo-gravimetric analysis. The composition of oil samples has been researched into by IR spectroscopy, chromatography-mass spectroscopy methods. A comparative analysis of research results of new oils and oils drained from aircraft engines indicates that even under insignificant overheat during the operation, a change in the hydrocarbon composition occurs, and the hydrocarbon content of basic types varies to some extent. The oil thermolysis research reveals that potential overheat after engine shutdown complies with the temperatures at which the decomposition commences. Thermal conversion products of oil carbohydrates will contribute to the defect formation in friction subunits. As a result of test data processing of thermal conversion of aviation oils MS-8P, TN-98, TN-600, the principles of their decomposition as well as macrokinetic parameters, allowing us to precisely evaluate the effect of oils operation temperature conditions on their conversion rate, have been specified. It is essential while simulating the aircraft engine operation and predicting variations of oil quality properties during their operation.

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航空油的热转化

如今，对航空设备提出了严格的要求，以提高可靠性，耐用性和环境兼容性。航空设备运行可靠性不仅取决于其结构和工艺能力，还取决于航空油、燃料和技术流体在运行过程中是否满足质量要求。在飞机发动机运行过程中，机油受到热冲击。因此，它们的性质和成分会发生变化，从而影响发动机的整体运行。提高航空油耐热性最有希望的途径是开发新的航空油和改进现有的航空油成分。因此，分析油热转化的动力学性质是可行的，这将为预测其在广泛温度范围内的阻力提供可能。本文采用热重分析法研究了白俄罗斯共和国民用航空中不同型号飞机上使用的MS-8P、TN-98和TN-600航空油的热分解动力学。采用红外光谱、色谱-质谱等方法对油样的组成进行了研究。对新油和航空发动机排气油的研究结果进行对比分析表明，即使在运行过程中轻微的过热情况下，烃类成分也会发生变化，基本类型的烃类含量也会发生一定程度的变化。油品热分解研究表明，发动机熄火后的潜在过热与油品热分解开始时的温度一致。油类碳水化合物的热转化产物会导致摩擦亚基中的缺陷形成。通过对MS-8P、TN-98、TN-600航油热转化试验数据的处理，明确了其分解原理和宏观动力学参数，从而可以准确地评价油的操作温度条件对其转化率的影响。这对于模拟飞机发动机的运行和预测发动机运行过程中油品性质的变化是十分必要的。

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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