利用LPG作为添加剂提高伊拉克柴油的性能

Q3 Environmental Science
Davan Abdulqadir, Fakhri Hamdullah Ibraheem
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引用次数: 0

摘要

为了环境和经济的目的,有必要寻找减少炼油厂火炬气体排放的方法。它会造成环境污染和升温。在Koya技术研究所的协助下,在Koya大学完成了所有实验室测试,以检查一些读数并核实其准确性。提高重油对气体的吸收率有望改善油的燃烧特性。本研究旨在确定最佳的操作条件,导致更高的吸收。在本研究中,柴油被认为是重油,液化石油气被认为是轻气。为此目的安装了一个实验室规模的装置。测定了雾化前后油品质量的变化量以及柴油闪点、十六烷值、柴油指数等特性。考虑了不同温度(0、10、20、30、40、50、60和90)下雾化时间(10、20、20、30、40和50)min的影响。对数据进行了讨论和图形化分析。最佳工况为:1升柴油用LPG雾化流量为9升/分钟,雾化温度为30℃,雾化时间最短为30分钟,最长为60分钟。生产的柴油闪点为55℃,每850克柴油的气体吸收量为24克,占柴油重量的2.8%,LPG气体流量的5%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Utilizing LPG as an Additive to Enhance the Properties of Iraqi Diesel Oil
For environmental and economic purposes, it is necessary to search for methods that reduce gas emission by flare from the oil refineries. It causes environmental pollution and warmup. All laboratory tests have been completed at Koya University, with the contribution of the Institute of Technology in Koya, to check some readings and verify their accuracy. Increasing the absorptivity of the gases by heavy oil will have expected to improve oil burning characteristics. This research aims to determine the best operating conditions that leads for higher absorption. In this research the diesel oil is considered as a heavy cut and LPG as a light gas. A lab scale unit was installed for that purpose. The amount of changes in oil weight before and after atomizing was determines as well as, the properties of the diesel oil like flash point, cetane number, and diesel index. The effect of a wide range of atomizing time (10, 20, 30, 40, 50, 60, and 90) minutes at different temperatures (0, 10, 20, 30, 40, and 50) °C was considered. The data is discussed and graphically analyzed.  The optimum operating conditions is achieved by, 9 liters/minute gas Atomizing flowrate of LPG for one liter of diesel oil, atomizing Temperature is 30 ᵒC, atomizing Time is 30 minutes’ minimum till 60 minutes’ maximum. The produced Diesel Flash Point is 55 ᵒC, and the amount of gas absorption is 24 gm per 850 gm of diesel oil which represent 2.8 % of diesel weight and 5% of LPG gas flowrate.
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来源期刊
CiteScore
1.50
自引率
0.00%
发文量
56
审稿时长
8 weeks
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