Performance and emission study on the effect of oxygenated additive in neat biodiesel fueled diesel engine

This work presents the effect of the Di-tetra-butyl-peroxide (DTBP) as an oxygenated additive on neat used mustard oil biodiesel (B100) to evaluate the emission and performance engine characteristics. Four fuels, namely, diesel, biodiesel (Mustard biodiesel), a blend of B100-10percentage, and 20% by volume of DTBP (BD90DTBP10 and BD80DTBP20) are prepared and tested on a single cylinder, constant speed diesel engine. Experimental outcomes revealed that 20% of DTBP reduces 7.3% CO, 5.1% HC, and 4.6% NOx and 3.2% smoke emissions of B100. From this study, further, it is inferred that BD80DTBP20 blend could be utilized as an alternative fuel for a CI engine with no modifications in engine design.     

非直喷式增压柴油机燃用生物柴油的性能与排放特性

研究了非直喷式增压柴油机燃用柴油一生物柴油混合燃料的性能和排放特性。未对原机作任何调整和改动,研究了不同生物柴油掺混比例的混合燃料对功率、油耗、烟度和NOx排放的影响。结果表明：非直喷式柴油机燃用生物柴油后柴油机功率略有下降,油耗有所上升,烟度大幅下降,NOx排放增加明显。油耗、烟度和NOx的变化均与生物柴油掺混比例呈线性关系,合适的生物柴油掺混比例即可以保持柴油机的性能,又可有效地降低碳烟排放,且不引起NOx排放的显著变化。对于该增压柴油机,掺混生物柴油对外特性下的排放影响最大,影响最小的为标定转速下的负荷特性。不论是全负荷还是部分负荷,燃用生物柴油时低速下的烟度降低和NOx上升幅度均比高速时大,而同转速下高负荷时烟度降低和NOx上升更为明显。     

生物含氧燃料成分对柴油机性能影响的试验研究

将占体积比80％的柴油分别掺混20％乙醇、20％生物柴油以及10％乙醇和10％生物柴油的混合物,连同纯柴油组成E20、B20、E10810和柴油共4种燃料,在一台4缸柴油机上进行燃烧、性能及排放特性试验研究。结果表明：含氧燃料成分的不同对折合油耗率基本不产生影响,但对燃烧和排放特性影响较大。发动机燃用E20的缸内最大爆发压力较柴油要大,B20、E10810较柴油要小;含氧燃料中生物柴油的加入使最大压力升高率减小,燃烧变得柔和;含氧燃料的放热时刻均落后于柴油的放热时刻。含氧燃料成分在中低负荷下对HC和CO的排放影响较大,随着含氧燃料中乙醇比例的增加HC和CO排放增加,在中高负荷下,3种含氧燃料的HC和CO排放基本相当;除了在2300r／min的中低负荷下含氧燃料的HC和CO排放较柴油高以外,其它工况下含氧燃料的HC和CO排放较柴油要低。含氧燃料成分不同对NOx排放的影响很小,3种含氧燃料的NOx排放都比柴油低。3种含氧燃料的碳烟排放较柴油要低,而且随含氧燃料中乙醇比例的增加,碳烟排放减小。     

柴油机燃用生物柴油混合燃料排放性能试验研究

通过对柴油机燃用掺入不同比例生物柴油的混合燃料排放性能的试验研究,结果表明：在柴油中掺入不同比例生物柴油的混合燃料,柴油机的CO,Hc和烟度均有较大的降低,NOx的排放略有升高,耗油率基本不变（在最大负荷时,10％,20％,30％的混合燃料和柴油机比较,HC的排放分别减少了20％,33．3％和83．3％;碳烟的排放分别减少了16．2％,51．8％和63．6％）。     

柴油机掺烧不同比例生物柴油的试验研究

将体积分数为10%2、0%、30%的生物柴油掺混到柴油里组成3种混合燃料,并连同纯柴油共4种燃料,在一台四缸增压中冷柴油机上进行性能、燃烧和排放特性的试验研究.结果表明,柴油机燃用生物柴油与柴油混合燃料的折合油耗率与燃用纯柴油时基本相当;燃用混合燃料的缸内最大爆发压力和压力升高率较低,着火时刻较晚;混合燃料的NOx和碳烟排放与燃用纯柴油时相比均有不同程度的降低,但混合燃料的HC和CO排放只是在1 500r/min时才较纯柴油低,当转速在2 300 r/min时,混合燃料的HC和CO排放更高.     

山茶油生物柴油特性及用于柴油机的性能与排放研究

研究了不同山茶油生物柴油比例混合燃料的热重特性,并在R180柴油机上进行试验,分析比较了柴油机的经济性和排放特性。结果表明：生物柴油与柴油混合性良好;不同燃料的热重特性基本相同;柴油机动力性没受明显影响;与柴油相比,混合燃料的当量燃油消耗率略为增加;CH排放降低;CO排放在中低负荷时降低,高负荷时增加;NOx排放在中间转速时随着生物柴油比例的提高先增加后降低,高速时降低。研究证明山茶油生物柴油用于柴油机具有良好的替代柴油、减少排放的效果。     

共轨柴油机燃用不同配比生物柴油的性能与排放特性

对某共轨柴油机燃用石化柴油、生物柴油及其混合燃料的动力性、经济性和排放特性进行了研究.在未对原机做任何改动的情况下,分别燃用了0%、5%、10%、20%和100%的5种不同体积配比的餐饮废油制生物柴油与石化柴油的混合燃料,分析比较了不同生物柴油配比对发动机功率、燃油消耗率,以及CO、HC、NO_x和烟度排放的影响.研究表明:共轨柴油机燃用生物柴油与石化柴油混合燃料后,功率略有下降,燃油消耗率有所上升;烟度、CO和HC排放减少,且随着生物柴油掺混比例的升高而降低;NO_x排放上升,且随着生物柴油掺混比例的升高而增加.     

柴油机燃用生物柴油混合燃料排放性能试验研究

通过对柴油机燃用掺人不同比例生物柴油的混合燃料排放性能的试验研究,结果表明：在柴油中掺人不同比例生物柴油的混合燃料,柴油机的CO,HC和烟度均有较大的降低,NOx的排放略有升高,耗油率基本不变。在最大负荷时,5％,15％,25％的混合燃料和柴油机比较,HC的排放分别减少了15％,33.3％和83.3％,碳烟的排放分别减少了16．2％,51．8％和63．6％。     

生物柴油/甲醇混合燃料对柴油机性能与排放的影响研究

在一台4缸直喷式柴油机上研究了超低硫柴油、生物柴油及后者与甲醇的混合燃料对发动机性能、气体及微粒排放的影响。生物柴油由餐饮废油制取,除单独使用外和甲醇按体积比90：10和80：20混合后使用。在最大扭矩转速1800 r.m in-1时,在5个不同负荷下,比较了不同燃料热效率及CO、HC、NOx以及微粒质量浓度,微粒的总数量及平均几何粒径。结果表明,和超低硫柴油相比,生物柴油及其和甲醇的混合燃料的热效率增加,NOx和微粒质量、数量浓度的排放降低,但HC、CO和NO2排放升高;同时,随着甲醇混合比例的增加,HC、CO和NO2的排放成比例增加,微粒的质量浓度及数量浓度进一步降低,热效率及NOx几乎保持不变。     

Experimental investigation on diesel engine with diestrol-water micro emulsions

Experiments were conducted on a single cylinder direct injection diesel engine using diesel, biodiesel and biodiesel-diesel-ethanol (diestrol) water micro emulsion fuels to investigate the performance, emission and combustion characteristics of the engine under different load conditions at a constant speed of 1500 rpm. The results indicated that biodiesel and micro emulsion fuels had a higher brake specific fuel consumption (BSFC) than that of diesel. A slight improvement in the brake specific energy consumption (BSEC) was observed for micro emulsion fuels. The brake thermal efficiency of biodiesel and micro emulsion fuels were comparable to that of diesel. The emission characteristics like carbon monoxide (CO), carbon dioxide (CO₂), unburnt hydrocarbon (UHC), nitric oxide (NO) and smoke emissions for biodiesel and micro emulsion fuels were lower than diesel fuel at all load conditions. The cylinder gas pressure of micro emulsion fuels was lower than diesel at low loads but it became almost identical to diesel at medium and full load conditions. The heat release rate for micro emulsion fuels was higher than biodiesel and diesel fuels for all loads. Biodiesel showed shorter ignition delay for the entire load range and the longer ignition delay observed for micro emulsion fuels.     

6BTA 5.9 G2-1 Cummins engine performance and emission tests using methyl ester mahua (Madhuca indica) oil/diesel blends

Neat mahua oil poses some problems when subjected to prolonged usage in CI engine. The transesterification of mahua oil can reduce these problems. The use of biodiesel fuel as substitute for conventional petroleum fuel in heavy-duty diesel engine is receiving an increasing amount of attention. This interest is based on the properties of bio-diesel including the fact that it is produced from a renewable resource, its biodegradability and potential to exhaust emissions. A Cummins 6BTA 5.9 G2- 1, 158 HP rated power, turbocharged, DI, water cooled diesel engine was run on diesel, methyl ester of mahua oil and its blends at constant speed of 1500 rpm under variable load conditions. The volumetric blending ratios of biodiesel with conventional diesel fuel were set at 0, 20, 40, 60, and 100. Engine performance (brake specific fuel consumption, brake specific energy consumption, thermal efficiency and exhaust gas temperature) and emissions (CO, HC and NOx) were measured to evaluate and compute the behavior of the diesel engine running on biodiesel. The results indicate that with the increase of biodiesel in the blends CO, HC reduces significantly, fuel consumption and NOx emission of biodiesel increases slightly compared with diesel. Brake specific energy consumption decreases and thermal efficiency of engine slightly increases when operating on 20% biodiesel than that operating on diesel.     

柴油硫含量对发动机排放性能影响的研究

在一台直喷式涡轮增压柴油机上分别燃用4种不同硫含量的柴油,研究了燃油硫含量对柴油机排放性能的影响.研究结果表明,燃油硫含量对柴油机的烟度有直接影响,随着燃油硫含量的降低,柴油机的烟度明显下降,低负荷下燃油硫含量对柴油机的烟度影响较大,NOx排放随燃油硫含量的降低变化很小,而CO和HC排放则降幅明显,SO2排放随柴油机负荷的增加显著上升,随燃油含硫量的降低而显著下降.     

大豆生物柴油制备及其在柴油机上的试验研究

介绍了通过酯交换反应来制取生物柴油的方法和制取流程,采用正交试验方法确定了最佳的反应条件。在增压柴油机上,进行了自制生物柴油和0#柴油的动力性、经济性以及排放的对比试验。结果表明,与0#柴油相比,燃用生物柴油时最大扭矩,最大功率以及外特性烟度均有所降低,有效燃油消耗率有所增加,NO_x、HC以及CO均有所降低。     

Biodiesel production from waste cooking oil using heterogeneous catalysts and its operational characteristics on variable compression ratio CI engine

In the present work, the optimum biodiesel conversion from waste cooking oil to biodiesel through transesterification method was investigated. The base catalyzed transesterification under different reactant proportions such as the molar ratio of alcohol to oil and mass ratio of catalyst to oil was studied for optimum production of biodiesel. The optimum condition for base catalyzed transesterification of waste cooking oil was determined to be 12:1 and 5 wt% of zinc doped calcium oxide. The fuel properties of the produced biodiesel such as the calorific value, flash point and density were examined and compared to conventional diesel. The properties of produced biodiesel and their blend for different ratios (B20, B40, B60, B80 and B100) were comparable with properties of diesel oil and ASTM biodiesel standards. Tests have been conducted on CI engine which runs at a constant speed of 1500 rpm, injection pressure of 200 bar, compression ratio 15:1 and 17.5, and varying engine load. The performance parameters include brake thermal efficiency, brake specific energy consumption and emissions parameters such as Carbon monoxide (CO), Hydrocarbon (HC), Oxides of Nitrogen (NOx) and smoke opacity varying with engine load (BP). Diesel engine's thermal performance and emission parameters such as CO, HC, and NOx on different biodiesel blends demonstrate that biodiesel produced from waste cooking oil using heterogeneous catalyst was suitable to be used as diesel oil blends and had lesser emissions as compared to conventional diesel.     

Impact of Carbon Nanotubes and Di-Ethyl Ether as additives with biodiesel emulsion fuels in a diesel engine – An experimental investigation

In the current global energy scenario, fossil fuels face challenges with regards to exorbitant demand, environmental hazards and escalating costs. In this regard, the technical community is in quest for alternative resources. In this context, biodiesel fuel is potentially considered as alternative fuels for compression ignition engines. Hence, in this current investigation, biodiesel and biodiesel emulsions are prepared from a vegetable oil and further subjected for the blending with potential additives such as CNT (Carbon Nanotubes) and DEE (Di-Ethyl Ether) to improve the working attributes of the diesel engine. The entire investigation was carried out in five stages. In the first stage, both pure diesel and biodiesel (derived from jatropha oil) fuels were tested in the diesel engine to obtain baseline readings. In the second stage, water–biodiesel emulsion fuel was prepared in the proportion of 91% of biodiesel, 5% of water and 4% of emulsifiers (by volume). In the third stage, 50 ppm of CNT, 50 ml of DEE and combined mixture of CNT+DEE (50 ppm CNT+50 ml DEE) were mixed with the water–biodiesel emulsion fuel separately to prepare the CNT and DEE blended water–biodiesel emulsion fuels respectively. In fourth stage, the prepared emulsion fuels were subjected to stability investigations. In the fifth stage, all the prepared stable emulsion fuels were subjected for experimental testing in a diesel engine. It was observed that the CNT and DEE blended biodiesel emulsion fuels reflected better performance, emission and combustion attributes than that of pure diesel and biodiesel. At the full load, the brake thermal efficiency, NO and smoke emission of CNT+DEE fuels was 28.8%, 895 ppm and 36%, whereas it was 25.2%, 1340 ppm and 71% for pure diesel respectively. It was also observed that on adding CNT and DEE with the biodiesel emulsion fuels, the ignition delay was shortened and henceforth, the additive blended biodiesel emulsion fuels exhibited higher brake thermal efficiency and reduced emissions (NO, smoke) than that of pure diesel and biodiesel.     

代用燃料在柴油机中的应用研究

本文对植物油,生物柴油,乳化油,乙醇/柴油等的制备和理化特性进行了研究.通过柴油机台架试验,研究了柴油机燃用生物柴油、乙醇/柴油、微乳燃油的排放特性.对比试验表明:生物柴油CO,碳氢(HC)和颗粒物(PM)的比排放下降幅度分别为34.6％,40.2％和28.9％,但NOx比排放增加了6.63％;柴油机燃用乙醇/柴油时,...     

生物柴油对直喷式柴油机燃烧和排放的影响

列举了生物柴油的基本物化特性。介绍了生物柴油对直喷式柴油机燃烧和排放的影响。相比普通柴油,燃用生物柴油可以减少CO、CO_2、SO_2、HC、微粒以及碳烟的排放且不会影响柴油机工作性能。采用EGR、乳化油、多次喷射及微粒捕捉器等措施可以进一步降低使用生物柴油的微粒和NOx排放。生物柴油作为一种可再生的替代能源,以其良好的环境效应受到越来越多的关注。     

高原地区柴油机燃用生物柴油混合燃料排放特性研究

在高原环境（81kPa）下,对4100QBZL型柴油机燃用不同配比生物柴油混合燃料后的排放特性进行了实验研究。实验结果表明：与燃用柴油相比,各工况下,HC、CO和碳烟的排放均有不同程度的降低（分别平均下降4．5％～38．4％、15．4％～43．9％和12．5％～65．5％）,高负荷低转速工况下效果尤为明显;NOx的排放也得到明显改善,只有纯生物柴油的NO。排放较柴油上升了0％～2．1％,其他指标均下降（平均下降4．4％～4．9％）。综合考虑,燃用掺混比为30％以内的生物柴油混合燃料,能同时有效地降低HC、CO、NOx和碳烟的排放。     

Factors affecting emissions from diesel fuel and water-in-diesel emulsion

The purpose of this research is to investigate the effect of addition of surfactant and water in diesel and to make an emulsified fuel considering the needs for vehicle performance and its cleanest possible operation. The total surfactant concentration in each of the diesel-water emulsion samples studied (span 20, span 80, tween 20, tween 80) is fixed at 1% w/w. The water content is variable at 5–15% w/w and the diesel content is varied from 84 to 94% w/w. Among all the tested nonionic surfactants, tween 80 is found to prominently reduce the carbon monoxide (CO), hydrocarbon (HC), and nitrogen oxide (NOx) emissions. Tween 20 reduced the NOx emission to a greater extent. Diesel emulsion with a fixed ratio of span 80 and tween 80 (1:1) efficiently reduced the overall emissions as compared to diesel alone. The developed diesel emulsion employed with nonionic surfactants clearly reduced the harmful engine emissions such as CO, HC, and NOx, signifying them as a future potential emulsifier in diesel fuel emulsion.     

共轨柴油机燃用天然气合成油的性能与排放特性

对某共轨柴油机燃用天然气合成油(gas-to-liquids,GTL柴油)和国-Ⅲ柴油进行了动力性、燃油经济性和排放特性研究.结果表明:与国-Ⅲ柴油相比,共轨柴油机燃用GTL柴油时的动力性与国-Ⅲ柴油相当,燃油消耗率降低约4%,GTL 柴油的 HC、CO、Nox、PM 排放分别降低17%、8%、3%、40%,烟度排放降低35%.GTL 柴油明显改善柴油机HC和烟度排放,并能同时降低柴油机Nox和 PM 排放,是一种潜力巨大的低排放柴油清洁代用燃料.