Enhancing the lubricity of gas-to-liquid (GTL) paraffinic kerosene: impact of the additives on the physicochemical properties

IF 2.35
Hani Ababneh, Nasr Mohammad, Hanif A. Choudhury, Lei Zhang, Rafiqul Gani, Gordon McKay, Nimir Elbashir
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引用次数: 3

Abstract

Synthetic paraffinic kerosene (SPK) is an ultra-clean fuel with low aromatic content and negligible quantities of sulfur compounds. Although, SPK has a good potential to replace the conventional fuel Jet A-1, it also has some deficiencies. One of them is the low lubricity compared to its conventional counterpart Jet A-1. To improve the lubricity of SPK, three selected additives have been mixed with SPK at different concentrations. The lubricity of the samples was determined experimentally and the samples that meet the industry specifications have been studied further. The effect of the additives on the physicochemical properties, such as, density, flash point, freezing point, viscosity, and heat content, were investigated. Linoleic acid was found to be an excellent lubricity improver even at a very low concentration and its negative impact on the other physicochemical properties was found to be insignificant. Ethyl oleate also demonstrated significant improvement in lubricity at low concentrations but had a negative impact on the fuel’s freezing point at high concentrations. Quinoline, at high concentrations, elevated the blend’s freezing point above the acceptable limits. In parallel to the experimental campaign, a pre-existing mathematical modelling tool was utilized to predict the properties of interest. The lubricity model was successfully introduced into the mathematical model in order to improve the capabilities of the model. Linoleic acid sample showed the best improvement in lubricity of SPK with wear scar diameter of 417?μm; well below the ASTM D7566 maximum limit of 850?μm. The dual nature of this study facilitated the optimization of the physicochemical properties of the fuel samples.

Abstract Image

提高气液(GTL)石蜡煤油的润滑性:添加剂对其理化性能的影响
合成石蜡煤油(SPK)是一种芳烃含量低、硫化物含量可忽略不计的超清洁燃料。虽然,SPK有很好的潜力取代传统燃料喷气机a -1,它也有一些不足。其中之一是与传统的Jet A-1相比,其润滑性较低。为了改善SPK的润滑性,将三种选定的添加剂以不同的浓度与SPK混合。对样品的润滑性进行了实验测定,并对符合工业标准的样品进行了进一步的研究。考察了添加剂对其密度、闪点、冰点、粘度、热含量等理化性质的影响。亚油酸即使在很低的浓度下也是一种很好的润滑性改进剂,对其他理化性质的负面影响也不显著。油酸乙酯在低浓度下也表现出显著的润滑性改善,但在高浓度下对燃料的凝固点有负面影响。高浓度的喹啉使混合物的凝固点高于可接受的限度。与实验活动并行,利用预先存在的数学建模工具来预测感兴趣的属性。为了提高数学模型的性能,在数学模型中成功地引入了润滑性模型。亚油酸样品对磨损疤痕直径为417 μm的SPK的润滑性改善效果最好;远低于ASTM D7566 850 μm的最大限值。该研究的双重性质有助于优化燃料样品的物理化学性质。
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