Fuel Economy and Emissions of Philippine CME-Diesel Blends From Drive Cycle and Steady Speed Operation

Jeffrey James C. Laguitao, E. Quiros, Jose Gabriel E. Mercado, Paul Rodgers
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Abstract

This paper presents a study on the effects of transient and steady-state vehicle operation on fuel economy and emissions trends of an in-use Euro 2 Asian utility vehicle in the Philippines, with a normally aspirated direct-injection engine, and fueled with different CME-diesel blends designated as B1, B2, B3, B5, B10, B20, B50, & B100 corresponding to increasing CME percentage blends. The vehicle was driven on a chassis dynamometer following the Japanese 10-15 Mode drive cycle and at steady speeds of 40, 60, & 80 kph for fuel consumption and CO, NOx, and THC measurements. PM measurements were not undertaken. Drive cycle results showed that adding CME up to 20% by volume (B20) has a small effect on the heating values, specific fuel consumption (SFC), fuel economy (FE), and maximum power. Relative to neat diesel, the increase in SFC, lower FE and power beyond B20 were attributed to lower heating values at higher blends. CO was practically constant while THC and NOx generally decreased with increasing CME blends. The CO and THC trends were ascribed to overall lean mixtures and increased amount of oxygenated fuel at higher CME blends. B20 yielded the most emissions reduction without performance loss. Steady speed results indicated for all blends, SFC increased with vehicle speed due to higher road load. Above B10, SFC went beyond 5% higher than that for neat diesel and is attributed to lowered heating values of higher blends. The SFC of blends up to B10 approached that of neat diesel as speed increased suggesting more diesel-like combustion characteristics. The blend fuel economy showed an inverse relationship to SFC as expected. Both CO and NOx exhibited slightly decreasing trends with higher blends at all speeds. For a given blend, CO decreased while NOx increased as speed went higher. THC followed bowl-shaped trendlines with blend ratio. THC was high for neat diesel going lowest at B5-B10 and upwards again beyond B10. For a given blend, THC emissions decreased with increasing vehicle speed.
从驱动循环和稳定速度操作中菲律宾CME-Diesel混合燃料的燃料经济性和排放
本文研究了一辆在菲律宾使用的欧二亚洲多用途车的瞬态和稳态运行对燃油经济性和排放趋势的影响,该车采用常吸气直喷发动机,燃料为不同的CME-柴油混合物,分别为B1、B2、B3、B5、B10、B20、B50和B100,对应于增加CME百分比的混合物。车辆按照日本10-15模式驾驶循环,在底盘测力仪上行驶,并以40、60和80公里/小时的稳定速度行驶,以测量燃油消耗和CO、NOx和THC。没有进行PM测量。驱动循环结果表明,添加体积比为20% (B20)的CME对热值、比油耗(SFC)、燃油经济性(FE)和最大功率的影响较小。与纯柴油相比,SFC的增加、FE的降低和功率超过B20是由于高掺合物的热值较低。随着CME混合物的增加,CO几乎不变,而THC和NOx普遍降低。CO和THC趋势归因于整体稀薄混合物和高CME混合物中含氧燃料量的增加。B20在没有性能损失的情况下减排最多。稳定速度结果表明,对于所有混合燃料,SFC随着车速的增加而增加,因为道路负荷增加。在B10以上,SFC比纯柴油高出5%以上,这是由于更高的混合物降低了热值。随着转速的增加,B10以下混合燃料的SFC接近纯柴油,表明燃烧特性更接近柴油。混合燃料经济性与SFC呈反比关系。在所有转速下,CO和NOx均随掺量的增加而略有下降。对于给定的混合物,随着速度的增加,CO减少而NOx增加。四氢大麻酚随混合比例呈碗状趋势。纯柴油的四氢大麻酚含量较高,在B5-B10最低,在B10以上再次上升。对于给定的混合燃料,THC排放量随着车速的增加而减少。
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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