天然气浓缩甲烷提高汽油辛烷值的研究

I. Hossain, M. Roy, Abir Debnath
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引用次数: 0

摘要

从本地天然气凝析油分馏得到的汽油辛烷值较低(78),因此用途有限。对于许多分馏装置来说,铅基辛烷增压和催化重整并不是可行的方法。因此,本研究旨在开发一种廉价的概念性替代方法来提高汽油的辛烷值。汽油吸收高辛烷值(100以上)的甲烷中的天然气,部分提高辛烷值(86)。首先将乙醇、叔丁醇、甲基环戊烷、甲苯、异辛烷和二甲苯等选择性添加剂与汽油混合,以帮助吸收天然气分子。随着温度的升高,还观察到汽油中吸收气体分子的损失。因此,需要尽量避免成品汽油的温度升高。开发的概念方法是有前途的。这项模拟研究的结果将有助于开展更多的研究,为分馏厂开发一种经济实惠的替代方法,以提高从天然气凝析油中提取的汽油的辛烷值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Boosting the Octane Number of Gasoline by Natural Gas Concentrated in Methane
Gasoline obtained from the fractionation of indigenous natural gas condensate has low octane number (78) and is therefore of limited uses. Lead-based octane boosting and catalytic reforming are not the viable methods for many fractionation plants. This study was therefore aimed to develop an inexpensive conceptual alternative method for boosting the octane number of gasoline. Natural gas concentrated in methane having high octane number (more than 100) was absorbed in the gasoline to boost the octane number partially (86). Selective additives i.e. ethanol, tert-butyl alcohol, methylcyclopentane, toluene, iso-octane and xylene were blended first with the gasoline to aid the absorption of natural gas molecules. The loss of absorbed gas molecules from gasoline with the increase in temperature was also observed. It is therefore required to try for avoiding any increase in temperature in the finished gasoline. The developed conceptual method is promising. The findings of this simulation study would be useful for more studies towards the development of an affordable alternative method for fractionation plants for boosting the octane number of gasoline derived from natural gas condensate.
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