生产含有高氢含量分子的喷气燃料

Szabina Tomasek, Z. Varga, A. Holló, N. Miskolczi, J. Hancsók
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引用次数: 5

摘要

只有使用燃烧性能优异、成分分子中氢含量高的替代燃料,才能减少航空的有害影响。由于塑料消费量的增加,塑料垃圾的数量也越来越高。尽管堆填区塑料废物已稳步减少,但目前的情况并不令人满意。因此,本研究的目的是生产含有由直馏煤油和废聚乙烯裂解馏分制成的替代成分的喷气燃料。我们在一个商业化的NiMo/Al2O3/P催化剂上进行了实验,工艺参数为:T=200-300°C, P=40 bar, LHSV=1.0-3.0 h-1,氢/烃比= 400 Nm3/m3。考察了原料和工艺参数对产品收率、加氢脱硫和加氢脱芳效率以及产品主要性能的影响。液相产物得率在99.7 ~ 99.8%之间。加氢所得产物的硫含量(1 ~ 1780 mg/kg)、芳香族含量(9.0 ~ 20.5%)及其烟点(26.0 ~ 34.7 mm)均满足JET燃油标准要求。此外,产品中石蜡的浓度也有所提高,燃烧性能也有所改善。产品的凝固点高于-47℃,因此需要进行产品混合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Production of JET fuel containing molecules of high hydrogen content
Abstract The harmful effects of aviation can only be reduced by using alternative fuels with excellent burning properties and a high hydrogen content in the constituent molecules. Due to increasing plastic consumption the amount of the plastic waste is also higher. Despite the fact that landfill plastic waste has been steadily reduced, the present scenario is not satisfactory. Therefore, the aim of this study is to produce JET fuel containing an alternative component made from straight-run kerosene and the waste polyethylene cracking fraction. We carried out our experiments on a commercial NiMo/Al2O3/P catalyst at the following process parameters: T=200-300°C, P=40 bar, LHSV=1.0-3.0 h-1, hydrogen/hydrocarbon ratio= 400 Nm3/m3. We investigated the effects of the feedstocks and the process parameters on the product yields, the hydrodesulfurization and hydrodearomatization efficiencies, and the main product properties. The liquid product yields varied between 99.7-99.8%. As a result of the hydrogenation the sulfur (1-1780 mg/kg) and the aromatic contents (9.0-20.5%) of the obtained products and the values of their smoke points (26.0-34.7 mm) fulfilled the requirements of JET fuel standard. Additionally, the concentration of paraffins increased in the products and the burning properties were also improved. The freezing points of the products were higher than -47°C, therefore product blending is needed.
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