共查询到14条相似文献,搜索用时 62 毫秒
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在一台S195直喷柴油机上进行燃料燃烧对比试验,试验结果表明,燃用生物柴油和乙醇柴油会使柴油机的动力性有所下降,其中菜籽油生物柴油的动力性接近纯柴油燃料的动力性,乙醇柴油的动力性相对较差。生物柴油和乙醇柴油的油耗率都比纯柴油要高,生物柴油的油耗率要高于乙醇柴油。但随负荷的增大,这种差距呈下降趋势。生物柴油和乙醇柴油在较大工况范围都可以保持比纯柴油燃料较低的CO排放量。低负荷状态下改善不明显,甚至会增大;高负荷工况下,混合燃料的CO排放比纯柴油降低较多。绝大部分工况下,生物柴油和乙醇柴油燃料的HC排放都比纯柴油高。绝大部分工况下,生物柴油和乙醇柴油的NOx排放和碳烟排放都比纯柴油低,其中生物柴油的表现优于乙醇柴油。 相似文献
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以精制麻风树油、甲醇和二乙二醇甲醚为反应物,以KOH为催化剂,制备出一种高含氧量的新型生物柴油——麻风树油二乙二醇甲醚酯。通过正交试验,确定了其最佳合成条件是醇油物质的量比为6∶1,催化剂用量为原料油质量的1.2%,反应温度为65℃,反应时间为30 min。通过FT-IR和1H-NMR分析并验证了产物的分子结构,测试了该生物柴油及其与0#柴油混合的燃料理化性质,包括油溶性、烟点、运动粘度、凝点、闭杯闪点;在相同测试条件下,比较其与0#柴油、麻风树油甲酯的碳烟排放情况。结果表明,麻风树油二乙二醇甲醚酯具有较高的含氧量,其理化性能和排放性能良好,既可以作为柴油添加剂,也可以代替柴油单独进行使用,具有一定的推广应用价值。 相似文献
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柴油机燃用微乳化生物柴油的性能和排放研究 总被引:1,自引:0,他引:1
微乳化生物柴油是由生物柴油、水以及表面活性剂组成的具有热力学稳定性的混合物.它能够结合生物柴油和掺水燃烧的优点,而且又稳定长期不分层.作者选用复配的表面活性剂配置了三种不同含水量的微乳化生物柴油,讨论了温度对其稳定性的影响,并且在单缸四冲程直喷柴油机上对比试验了微乳化生物柴油、0#柴油和生物柴油的排放.结果表明一定含水量的微乳化生物柴油能正常燃烧,相对于柴油和生物柴油能够明显地降低碳烟和NOx的排放,而且水含量比较低的微乳化生物柴油的油耗变化很小. 相似文献
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针对一种新型生物柴油——麻疯树油二乙二醇甲醚酯的发动机燃烧特性进行研究,分别对该生物柴油及其与柴油的混合燃料进行了理化性质分析和发动机台架试验。结果表明:麻疯树油二乙二醇甲醚酯的各项理化性质良好;与燃用0#柴油相比,在相同转速和负荷条件下,麻疯树油二乙二醇甲醚酯的发动机压力示功图的整体趋势没有发生较大的变化,而压力升高率和放热率均具有曲线前移和峰值降低等明显特点。燃烧有效热效率随混合燃料中生物柴油的含量增高而增大,表明该生物柴油具有较高的含氧量,且十六烷值高于柴油,因此着火性能优异,具备代替柴油单独应用的条件。 相似文献
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采用正交试验和单因素试验的方法研究了氨基磺酸催化菜籽油及废油脂与甲醇的酯交换过程,考察了醇油物质的量比、催化剂用量、反应温度和反应时间对反应收率的影响。结果表明:菜籽油酯交换的最佳反应条件为醇油物质的量比6∶1,氨基磺酸用量为原料油质量的1.0%,反应温度60℃,反应时间20 min,此工艺条件下,脂肪酸甲酯的收率达到95.6%;废油脂酯交换的最佳反应条件为醇油物质的量比8∶1,氨基磺酸用量为原料油质量的1.0%、反应温度65℃,反应时间30 min,此工艺条件下,脂肪酸甲酯的收率达到87.5%。利用红外光谱表征了菜籽油和生物柴油的结构,气相色谱分析了生物柴油的组成。 相似文献
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H. G. Abubakar A. S. Abdulkareem A. Jimoh. O. D. Agbajelola J. O. Okafor 《Energy Sources, Part A: Recovery, Utilization, and Environmental Effects》2016,38(16):2355-2361
The sequences of development that cut across industrialization, population growth, environmental and economic reasons led individuals and organizations to have direct responsibilities in the development and implementation of sound technologies that will curtail the emissions of hazardous gases and particulate matter. As a result, this study focuses on the optimization and characterization of biodiesel from waste cooking oil. It involves the characterization of the feed stock, the transesterification, the purification of the transesterified waste cooking oil, the optimization of the biodiesel produced using 24 factorial experimental designs, and the characterization of the biodiesel produced from waste cooking oil. Result obtained reveals that operating temperature of 30°C, transesterification time of 60 min, catalyst weight of 0.5%, and alcohol to oil ratio of 6:1 are the optimum conditions with optimum yield of 90% of biodiesel from waste cooking oil. Experimental determinations of some useful properties of the biodiesel produced were carried out for the purpose of confirming the quality as well as the identification of the biofuel. These were moisture content, specific gravity, viscosity, acid value, sulfated ash, cetane number, cloud point, flash point, distillation characteristic, and refractive index. The results obtained were 0.097%, 0.854, 4.90 mm2/s, 0.80 mgKOH/g, 0.01%, 48.00, 53°F, 143°C, 320°C, and 1.412, respectively. The results obtained showed that all the parameters compare favorably with literatures and the standard biodiesel specifications; hence production of biodiesel from waste cooking oil is possible. 相似文献
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In this study, the catalytic performance of commercial CaO modified by trimethylchlorosilane (TMCS) for transesterification of rapeseed oil and methanol to biodiesel production was investigated. It was found that the fatty acid methyl esters (FAME) yield of the modified CaO was greatly enhanced from 85.4% to 94.6%. The possible reason lies on promoting the absorption of grease to CaO surface. Good results of repeated experiments showed that the modified catalyst has the capacity of water resistance and can be reused for several runs without significant deactivation, which can be confirmed by the humidity test in the vapor-saturated atmosphere. Both the characterizations of the catalyst and the effects of various factors such as mass ratio of catalyst to oil, reaction temperature and molar ratio of methanol to oil were investigated. 相似文献
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以棉籽油皂脚为原料制备生物柴油 总被引:1,自引:0,他引:1
文章探讨了在酸性催化剂作用下以酸化的棉籽油皂脚为原料制备生物柴油的工艺,为棉籽油生产过程中产生的废料--棉籽油皂脚的回收利用开辟了一条新的途径.试验考察了催化剂用量、反应时间、投料比等因素对反应收率的影响,并通过正交试验优化得到了最佳工艺条件:催化剂(浓硫酸)用量4%(以脂肪物质量计),反应时间10 h,脂肪物与甲醇物质的量比为1:10.在上述最优条件下产品收率可达83%. 相似文献