The Effect of Water Contents to Diesel Fuel-Water Emulsion Fuel Stability

Joko Suryadi, S. Winardi, T. Nurtono
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引用次数: 2

Abstract

 The declining world oil and gas reserves along with increasing gas emissions from fossil fuel consumption has received serious attention as an urgent problem worldwide. The alternative solution to the problem uses emulsified fuel which is expected to provide better combustion efficiency and will contribute to emission reductions, such as NOx and particulate matter (PM). The one of most important factor in emulsion fuel is its stability. In this work, the effect of water contents to stability of diesel-water emulsion fuels has been investigated. The stability of emulsion fuel related to coalescence and sedimentation formation. The diesel fuel-water emulsification process was carried out in a standard stirred tank consisting of a cylinder tank (93 mm in diameter) and Rushton disk turbine (40 mm in diameter). Materials used consist of diesel oil (Pertamina DEX), demineralized water, surfactants (Lecithin, Triton X-100 and Tween 80). The surfactant used is a mixture of Lecithin Triton X-100 (76.6%: 23.4%) and Lecithin Tween 80 (45.5%: 54.5%) at 1% total volume of emulsion. The impeller set in constant speed at 1900 rpm. To reduce emulsification energy consumption, water is added gradually into the tank at 2 mL/min of flowrate. Water content varies at 5%, 10%, 20%, and 40% by total volume of emulsion. Physical properties of emulsion fuel such as viscosity and density at room temperature were investigated periodically. The characterization of emulsion fuel stability was measured by slope value of absorbance ratio at wavelength 450 nm and 850 nm. Sediment formation was periodically by visual observation as emulsion phase percentage. Emulsion droplet size was measured by Dynamic Light Scattering (DLS) method. Physical properties of emulsions such as density and viscosity tend to constant value in order of time. Emulsion fuel with 5% water content has the largest volume of emulsion phase in the rest of time, 83 % for L-T emulsion fuel and 95% for L-Tx. The lowest slope value shown by 5% emulsion fuel water content, 8.657×10 for 5% L-T emulsion fuel and -2,084 × 10 for 5% L-Tx emulsion fuel. Droplet size measurement of emulsion shown that different amount of added water caused the different droplet size of emulsion. KeywordsEmulsion Fuel, Mixed Surfactants, Low Energy Emulsification.
水含量对柴油-水乳化燃料稳定性的影响
世界石油和天然气储量的下降以及化石燃料消费产生的气体排放的增加已经作为一个紧迫的问题受到了全世界的严重关注。另一种解决方案是使用乳化燃料,这种燃料有望提供更好的燃烧效率,并有助于减少氮氧化物和颗粒物(PM)等排放。乳化燃料中最重要的因素之一是其稳定性。本文研究了水含量对柴油-水乳化燃料稳定性的影响。乳化液燃料的稳定性与聚结和沉积形成有关。柴油-水乳化过程在标准搅拌槽中进行,搅拌槽由直径93 mm的圆柱槽和直径40 mm的Rushton盘式涡轮组成。使用的材料包括柴油(Pertamina DEX)、去矿化水、表面活性剂(卵磷脂、Triton X-100和Tween 80)。所使用的表面活性剂是卵磷脂Triton X-100(76.6%: 23.4%)和卵磷脂Tween 80(45.5%: 54.5%)在乳状液总体积为1%时的混合物。叶轮设定在1900转/分的恒定转速。为降低乳化能耗,以2 mL/min的流量逐步向罐中加水。水的含量在乳液的总体积的5%,10%,20%和40%变化。对乳化燃料在室温下的粘度、密度等物理特性进行了定期研究。通过在450 nm和850 nm波长处的吸光度斜率值来表征乳化液燃料的稳定性。沉淀物形成以乳化液相百分比周期性目测。采用动态光散射(DLS)法测定乳化液滴度。乳剂的密度、粘度等物理性质随时间的变化趋向于恒定值。水含量为5%的乳化燃料剩余时间内乳化相体积最大,L-T为83%,L-Tx为95%。当乳化燃料含水量为5%时,最低斜率值为8.657×10;当乳化燃料含水量为5%时,最低斜率值为- 2084 ×10。乳状液的粒径测定表明,不同的加入水量会导致乳状液的粒径不同。关键词乳化燃料;混合表面活性剂;低能乳化;
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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