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。     

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.     

基于不同原料生物柴油混合燃料的发动机性能研究

对一台TDI柴油机燃用花椒籽、棉籽、棕榈和餐饮废油脂4种不同原料制成的生物柴油(以10%体积比分别与柴油混合制成)的动力性、经济性和排放特性进行了试验研究,探讨了4种生物柴油对发动机性能的影响。研究结果表明:在燃用4种生物柴油时,棕榈油制生物柴油的功率和纯柴油基本一致,其余混合燃料的功率都比纯柴油略有下降;4种混合燃料的油耗与纯柴油基本一致;与纯柴油相比,生物柴油混合燃料的碳烟、CO、HC排放均较低,而NOx排放略高。     

清洁能源GTL柴油作为柴油机代用燃料的试验研究

研究了增压直喷柴油机燃用柴油-GTL柴油混合燃料的性能和排放特性.在未对原机作任何调整和改动下,研究了不同混合比柴油-GTL柴油的混合燃料对功率、油耗、烟度和NOx排放的影响.结果表明:柴油机燃用GTL柴油后功率和油耗有所下降,其变化程度与燃料之间的掺比有关,但燃料G50的动力性最好,优于常规柴油,经济性与燃料G100相当.随着GTL柴油掺混比的增加,柴油机烟度和NOx排放呈大幅下降趋势.柴油机燃用GTL柴油时,可适用更高的EGR率.     

在直喷式柴油机上燃用低比例生物柴油和柴油的试验研究

在原直喷式柴油机结构和参数不做任何改变情况下,燃用低比例生物柴油和高比例柴油的混合燃料进行试验研究.试验结果表明:发动机燃用20%生物柴油和80%柴油的混合燃料与柴油相比较,在外特性下,B20功率和扭矩均比柴油低,当量油耗率低速时要低,高速时高.在外特性和1800 r/min负荷特性下,混合燃料碳烟、CO和HC排放均降低,NOx排放(除少数工况外)略有增加.该混合燃料对降低柴油机碳烟、C0和HC排放十分有利.     

餐饮废油基生物柴油对柴油机有害排放特性的影响

在一台电控共轨增压中冷柴油机台架上，燃用纯柴油以及分别掺混10%、20%、30%餐饮废油制生物柴油的柴油/生物柴油混合燃料，研究生物柴油对柴油机燃烧及排放特性的影响。结果表明:生物柴油使发动机的预喷放热率略微下降，主喷放热率有所升高，缸压峰值随掺混比例的增大略有降低；燃用生物柴油使发动机的NO_x排放有所上升，HC排放略有下降，CO排放变化不大；低转速下核模态颗粒排放略微增加，积聚态颗粒数有所减少，高转速下核模态和积聚态颗粒数都减少；掺混生物柴油会增加发动机排气颗粒物的氧化活性，使得最大氧化速率温度降低，活化能降低；掺混生物柴油能够降低颗粒相多环芳烃的质量比排放。     

柴油机燃用生物柴油及柴油的燃烧分析与排放特性

为了进一步弄清楚生物柴油对发动机燃烧和排放的影响.在发动机试验台架上,对一台增压中冷车用柴油机进行生物柴油和柴油的性能及排放等试验.试验按国家标准GB17691—2001规定的测量方法、全负荷速度特性以及不同转速下的负荷特性进行.测录了示功图并进行了不同燃料的燃烧比较和分析.结果表明,生物柴油由于其燃料特性,引起喷油提前,但滞燃期较短,预混燃烧比例较小.排放测试结果表明,生物柴油的烟度、HC和CO下降,但NOx排放增加.按13工况法,燃用生物柴油,HC和CO分别下降21.3%和1.7%;NOx增加2.9%.     

生物柴油特性分析与应用

生产生物柴油的主要原料是可再生的生物资源,生物柴油含氧而基本不合硫和芳香烃,具有良好的燃料品质和环境友好性,从能源战略角度分析,生物柴油是最为重要的代用燃料之一.柴油机不需改动即可使用生物柴油,柴油机使用生物柴油不仅利于改善燃料结构,而且可以降低有害排放.本文对比了生物柴油与矿物柴油的燃料特性,分析了柴油机燃用生物柴油的好处,介绍了生物柴油在国内外的发展情况,指出发展生物柴油的目的并不是要取代矿物柴油,而在于改善矿物柴油的性能,以满足不断严格的排放标准,并对推动我国生物柴油的发展提出了建议.     

生物油/柴油乳化燃料用于柴油机的试验研究

为研究生物油/柴油乳化燃料作为柴油机燃料的性能,通过添加适量乳化剂配制成乳化燃料并在柴油机上燃用,分析了乳化燃料的燃烧特性、经济性、排放特性及对柴油机的影响.结果表明:生物油与柴油可以通过乳化形成较稳定的乳化燃料且可将其用于柴油机,但燃油消耗率比柴油高,热效率比单一柴油低;CH和CO排放增加,NO_x排放降低;使用一段时间后,供油管路中的橡胶密封件出现溶胀效应,排放因喷油器被磨蚀而随时间呈非正常变化.试验对进一步研究生物油在柴油机上的应用具有重要意义.     

乙醇柴油混合燃料发动机的经济性和排放特性的试验研究

在一YC6J170-21车用六缸发动机上进行了添加助溶剂（正丁醇）情况下,无水乙醇与市售0#柴油的混合燃料对柴油机经济性和排放特性影响的研究。试验结果表明：柴油机燃用乙醇柴油混合燃料的油耗率比纯柴油高,并且随乙醇比例的增大油耗率增大,但混合燃料的等热值当量油耗率与纯柴油相差不大,混合燃料的有效热效率比纯柴油高。柴油机燃用乙醇柴油混合燃料后,NOx和碳烟排放大幅度降低,且随着混合燃料中乙醇比例的增加,下降效果明显。柴油机燃用乙醇柴油混合燃料对CO的排放改善不明显,CO排放与原机相当。柴油机燃用乙醇柴油混合燃料后,HC排放比原机增大,且HC排放与混合燃料中乙醇比例及发动机工况有关,乙醇比例越高,HC排放也基本越大。     

Experimental investigation of the influence of blending on engine emissions of the diesel engine fueled by mahua biodiesel oil

The present article elaborates on the various emission characteristics of mahua oil with diesel fuel in a diesel engine at various blending conditions. Experimental investigation results are studied for various parameters such as exhaust emission of carbon monoxide (CO), hydrocarbon (HC), and oxides of nitrogen (NO) gases and exhaust gas temperature. Results show that residual oxygen, CO, HC, and NO emission were the lowest for mahua biodiesel compared with diesel. The experimental results proved that the use of mahua oil biodiesel as fuel in the diesel engine is a viable alternative to diesel fuel. Mahua biodiesel oil may be beneficial in decreasing greenhouse gas emissions without any engine modification. Mahua oil has the possibility of becoming a sustainable fuel source as biodiesel.     

Comparison of performance characteristics of agricultural tractor diesel engine operating on home and industrially produced biodiesel

Owing to unstable diesel fuel prices in the world market, many farmers have been looking for alternative fuels. Vegetable oils are one of the alternatives, which can be used as fuel in diesel engines either in the form of straight vegetable oil or in the form of biodiesel. This study aims to present experimental data by utilization of home and industrial biodiesel as fuel in an agricultural tractor diesel engine. The home biodiesel production was made from different vegetable oils (crude rapeseed, edible sunflower and waste oil) with the process of one‐stage‐based catalyzed transesterification. A commercially available agricultural tractor ZETOR 7745 was employed. Measurements were taken on the power take‐off shaft by electrical dynamometer FROMENT XT200. According to the results, agricultural tractor diesel engine operating on home biodiesel fuels had better performance characteristics related to industrially produced biodiesel and similar to conventional diesel fuel. Copyright © 2009 John Wiley & Sons, Ltd.     

生物柴油在柴油机上应用的关键技术研究

对生物柴油的质量指标进行了详细的介绍,为了研究发动机燃用生物柴油-柴油混合油时的动力性、经济性和排放性,设计相应的台架试验。结合生物柴油的质量指标和发动机燃油系统的结构分析影响原因,为发动机最终燃用柴油-生物柴油混合液的研究做准备。     

Performance and emission characteristics of a Kirloskar HA394 diesel engine operated on fish oil methyl esters

The high viscosity of fish oil leads to problem in pumping and spray characteristics. The inefficient mixing of fish oil with air leads to incomplete combustion. The best way to use fish oil as fuel in compression ignition (CI) engines is to convert it into biodiesel. It can be used in CI engines with very little or no engine modifications. This is because it has properties similar to mineral diesel. Combustion tests for methyl ester of fish oil and its blends with diesel fuel were performed in a kirloskar H394 DI diesel engine, to evaluate fish biodiesel as an alternative fuel for diesel engine, at constant speed of 1500 rpm under variable load conditions. The tests showed no major deviations in diesel engine's combustion as well as no significant changes in the engine performance and reduction of main noxious emissions with the exception on NO_x. Overall fish biodiesel showed good combustion properties and environmental benefits.     

Exhaust emission study on neat biodiesel and alcohol blends fueled diesel engine

In this study, neat biodiesel with octanol additive was employed in a diesel engine and its effects on engine emission were studied. The five fuels evaluated were neat palm kernal oil biodiesel, octanol blended with biodiesel by 10%, 20%, and 30% volume, and diesel. All the emissions are reduced by the addition of octanol in biodiesel in all loads owing to the higher oxygen concentration of air/fuel mixtures and improved atomization. Hence, it is concluded that the neat biodiesel and octanol blends can be employed as an alternative fuel for existing unmodified diesel engines owing to its lesser emission characteristics.     

Potential and challenges for large-scale application of biodiesel in automotive sector

Biodiesel is receiving serious attention globally as a potential alternative fuel for replacing mineral diesel, partially or fully. In this review paper, most prominent methods of biodiesel production commercially, life-cycle analysis and economic issues related to biodiesel, engine performance, combustion and emission characteristics including particulate, engine compatibility issues and effect of biodiesel usage on engine component wear and lubricating oil are comprehensively discussed. Majority of biodiesel produced globally is via base-catalyzed transesterification process since this is a low temperature and pressure process, having high conversion rates without intermediate steps, and it uses inexpensive materials of construction for the plant. Catalyst types (alkaline, acidic or enzymatic), catalyst concentration, molar ratio of alcohol/oil, reaction temperature, moisture content of reactants, and free fatty acid (FFA) content of oil are the main factors affecting biodiesel (ester) yield from the transesterification process. Substantial reduction in particulate matter (PM), total hydrocarbons (THC) and carbon monoxide (CO) emissions in comparison to mineral diesel, and increased brake specific fuel consumption (BSFC) and oxides of nitrogen (NO_X) emissions are reported by most researchers using unmodified compression ignition (CI) engines. This review covers several aspects, which are not covered by previous review articles, such as effect of biodiesel on unregulated emissions, effect of biodiesel on carbon deposits, wear of key engine components, and lubricating oil in long-term endurance studies. It emerges from literature review that even minor blends of biodiesel help control emissions and ease pressure on scarce petroleum resources without sacrificing engine power output, engine performance and fuel economy. This review underscores that future studies should focus on optimization of fuel injection equipment and hardware modifications to develop dedicated biodiesel engines, improve low temperature performance of biodiesel fuelled engines, develop new biodiesel compatible lubricating oil formulations and special materials for engine components before implementing large-scale substitution of mineral diesel by biodiesel globally.     

生物柴油在非道路用柴油机上的实验研究

本文以非道路用186FA柴油机为研究对象,进行了生物柴油和0#轻质柴油经济性、排放性能对比实验。实验结果表明,186FA柴油机不需要改装就可以使用生物柴油。柴油机燃用两种燃油时,相同的功率条件下,生物柴油热效率提高。燃用生物柴油有利于降低CO、HC、颗粒,但是NOx排放会增加。生物柴油在非道路用柴油机上有广阔的应用前景。     

Increasing the efficiency of a diesel engine running on biodiesel through butanol fumigation

A single-cylinder, direct-injection diesel engine was tested with regular diesel oil, neat Jatropha biodiesel, and biodiesel with butanol injection into the inlet manifold. An engine fueled with neat biodiesel showed 5% reduction of the fuel conversion efficiency and 17% increase in specific fuel consumption relative to diesel oil. With butanol injection at a rate of 25% of the total fuel consumption, the efficiency was equivalent to that of diesel oil and specific fuel consumption was less than that of neat biodiesel. Engine emissions with biofuel were improved except for carbon monoxide and unburned hydrocarbons. It was concluded that the diesel engine can operate on the neat biofuel (biodiesel plus alcohol) with the fuel conversion efficiency equivalent to that of the diesel oil.     

Influence of biodiesel on engine combustion and emission characteristics

This paper discusses the influence of biodiesel on the engine combustion characteristics. The considered fuel is neat biodiesel from rapeseed oil. The considered engine is a bus diesel engine with injection M system. The engine characteristics are obtained by experiments and numerical simulation. The results obtained with biodiesel are compared to those obtained with mineral diesel under various operating regimes. In this way, the influences of biodiesel usage on the injection pressure, injection timing, ignition delay, in-cylinder gas pressure and temperature, heat release rate, exhaust gas temperatures, harmful emissions, specific fuel consumption, and on engine power are analyzed. Furthermore, the relationships among fuel properties, injection and combustion characteristics, harmful emissions, and other engine performance are determined. Special attention is given to possible explanations of higher NO_x emission in spite of lower in-cylinder gas temperature.