生物柴油应用试验研究

利用B100(纯生物柴油)、B50(50%体积生物柴油和柴油混合)、B20(20%体积生物柴油和柴油混合)等燃料分别对2辆配置了增压中冷车用直喷式柴油机的大客车进行了发动机排放特性试验和整车道路试验。试验结果表明,B100、B50和B20燃料均可以有效降低HC、CO、PM和烟度排放,但动力性下降、油耗率上升、NOx排放有明显增加;燃用B20燃料可以保证在降低排放的同时动力性、耗油率变化不大,因此该种掺烧方式比较适宜。     

二甲醚／柴油混合燃料在压燃式发动机上的应用

为探索二甲醚/柴油混合燃料作为柴油机替代燃料的应用性能,对D20二甲醚/柴油混合燃料的喷雾特性进行了试验研究;同时,开展了直喷式柴油机燃用二甲醚/柴油混合燃料动力性能、经济性能及排放性能研究。结果表明:在同样的环境背压下,D20混合燃料的油束与柴油相比较,贯穿度有所缩短,喷雾锥角有所增大;柴油机燃用二甲醚/柴油混合燃料时,通过适当调整循环油量,发动机的动力性可以超过原柴油机,最低当量比油耗下降4.5%,烟度指标下降70%以上,NOx排放降低30%~50%;二甲醚/柴油混合燃料是一种能实现高比功率、低排放的石油替代燃料。     

Experimental investigation of B20 combustion and emissions under various intake conditions for low-temperature combustion

Recently, biodiesel has emerged as an alternative fuel for achieving low-temperature combustion (LTC). Several articles in the literature have showed that oxygenated biofuels, including biodiesel, can improve combustion stability under high exhaust gas recirculation (EGR) operation, which is considered to be necessary for the removal of nitric oxides (NOx). The objective of this study was to investigate the performance and emissions of 20% biodiesel blended diesel fuel (B20) at various intake pressures and oxygen concentration levels to characterize the fuel for LTC application. The experimental investigation of B20 was carried out using a single-cylinder engine (SCE) at 1400 rpm and 50% load condition. A set of critical flow orifices with synthetic EGR was employed to simulate various intake pressures and EGR levels. The behavior of the B20 was first characterized under various intake conditions. The results showed that with high oxygen intake, B20 exhibited combustion and emission levels that were very similar to conventional diesel. However, B20 reduced combustion deterioration while exhibiting lower carbon monoxide (CO) and hydrocarbon (HC) emissions than diesel under low oxygen intake conditions.     

Study on pilot injection of DI diesel engine using common-rail injection system

In recent DI diesel engines designed to achieve high output and meet future exhaust regulation, the pilot injection control using a common-rail injection system is adopted. In this research, we developed visualization equipment for pilot combustion behavior of non-luminous flame to clarify the influence of pilot injection parameters (timing and quantity) on engine performance. As a result of this analysis, we clarified the influence of pilot injection parameters on pilot-main combustion and found the optimum pilot injection controlling method.     

柴油机掺烧生物柴油NO_x和Soot排放控制研究

对柴油机燃用生物柴油-0号柴油混合燃料的NO_x和Soot排放特性进行了仿真研究。在柴油机参数不作任何改变的情况下燃用体积分数分别为10%,20%,30%,40%和50%的生物柴油混合燃料,与原机的NO_x和Soot排放特性进行对比。研究表明:随着混合燃料中生物柴油体积分数的增加,柴油机Soot排放降低,NO_x排放增大。EGR的引入使柴油机NO_x排放降低,同时也使Soot排放增加。在1 800r/min中低负荷工况下,大比例生物柴油-0号柴油混合燃料应用于柴油机时,可通过调节EGR率使得柴油机NO_x和Soot排放都控制到与原机相当。     

Reaction characteristics of the diesel oxidation catalyst of particulate matters from the diffusion flame of a oiler burner

The objective of this experimental study is to investigate the characteristics of the size distribution and the number concentration of PM (particulate matters) emitted from the diffusion flame of a boiler burner, which has the same type of combustion as a diesel engine. This study is performed to investigate the emission characteristics of nanoparticles generated from diffusion combustion in diesel fuel, and it considered fuel factors and the reaction characteristics of the nanoparticles on the DOC (Diesel oxidation catalyst). The factors examined in this experiment included the sulfur content in the fuel, the blend of the diesel fuel containing biodiesel and bio-ethanol, and the concentration of engine oil (0.1% and 1.0%) blended with diesel fuel. The particle size distribution of the nanoparticles exhausted from the boiler burner was measured by an SMPS (scanning mobility particle sizer). The number concentration of PM that were smaller than 70 nm in diameter greatly increased in the rear of the DOC when fuel containing 250 ppm of sulfur was used. The experiment also suggested that the particle number concentration in both the front and rear of the DOC was lower when ULSD (ultra low sulfur diesel) fuel blended with biodiesel and bio-ethanol, which are oxygenated fuels, was used than when only ULSD fuel was used. The higher the content of engine oil in the fuel, the higher the particle number concentration was in the front and rear of the catalyst. When the first dilution air temperature is increased from 30°C to 180°C, the nanoparticle number concentration dramatically dropped in the rear of the catalyst when fuel containing 250 ppm of sulfur was used, while the particle size distribution remained almost the same when the fuel with engine oil was used.     

生物柴油改善柴油机炭烟和噪声的试验研究

在高原环境(81 kPa)下,4100QBZL增压中冷柴油机分别燃用生物柴油体积分数为0％,10％,30％,100％的4种生物柴油—柴油混合燃料,进行了动力性、炭烟排放和表面辐射噪声的试验研究.结果表明:随着掺烧生物柴油比例的增大,发动机的动力性略有下降,炭烟排放明显降低,排气温度有所下降,表面辐射噪声略有降低.     

重型柴油机燃用不同柴油替代燃料的性能研究

对乖型柴油机燃用纯柴油、体积混合比例为1:9的天然气合成油(GTL柴油)与柴油混合燃料(G10)、体积混合比例为1:9的生物柴油与柴油混合燃料(BD10)、纯GTL柴油(G100)及纯牛物柴油(BD100)5种燃料的动力性、经济性及燃烧特性进行了研究.结果表明,BD10、G10与纯柴油有相似的燃烧特性,额定转速F G100的缸内工作压力增大,BD100的缸内工作压力显著降低;G10油耗较之BD10降低2.43%,功率较之BD10平均高2.78%;与燃用纯柴油的油耗相比,G100平均降低2.62%,BD100平均高出13%;除NOx排放外,生物柴油在降低CO、HC、PM的排放上均有所改善.     

柴油机燃用甲醇——生物柴油混合燃料的性能与排放研究

在186FA柴油机上,进行了燃用柴油、生物柴油和甲醇--生物柴油混合燃料的性能试验,分析了生物柴油掺烧甲醇对柴油机性能的影响规律.试验结果表明:与燃用生物柴油相比,生物柴油掺烧5%和10%(质量比)的甲醇时,柴油机的标定功率分别降低7.4%和17.8%,标定工况时能量消耗率增加5.7%和15.0%,CO排放升高40.0...     

柴油机在高原地区燃用混合燃料的试验研究

在高原地区对1台4100QB—2柴油机燃用生物柴油与柴油不同掺混比的混合燃料进行了台架试验。分析了混合燃料的物性,根据其物性和掺混比计算出当量燃油消耗率。对比分析了柴油机燃用混合燃料的有效热效率、机械效率和负荷特性。试验结果表明,在高原地区,柴油中加入体积比为10%~30%的生物柴油,柴油机的经济性有明显改善。     

发动机燃用生物柴油-柴油-乙醇混合燃料的性能试验

为了降低柴油机燃用中等比例生物柴油-柴油混合燃料的污染物排放,在1 400r/min和2 000r/min不同负荷条件下,首先对比分析了发动机燃用生物柴油-柴油混合燃料与纯柴油的性能差异,然后在中等比例的生物柴油-柴油混合燃料中分别掺混10%和20%(体积比)的无水乙醇,测定了乙醇掺混比对发动机经济性、动力性和排放特性的影响。结果表明:与纯柴油相比,生物柴油-柴油混合燃料的有效燃油消耗率上升,动力性略有下降,炭烟排放降低,而NO_x排放升高。随着乙醇掺混比的增大,生物柴油-柴油-乙醇混合燃料的有效燃油消耗率升高,小负荷时受乙醇汽化潜热的影响导致有效热效率下降,中等负荷时乙醇对有效热效率的影响不大,而大负荷时乙醇的高含氧量能够提高发动机的有效热效率。1 400r/min和2 000r/min全负荷条件下,发动机的最大功率随乙醇掺混比的增大而下降。在不同负荷条件下,随着生物柴油-柴油-乙醇混合燃料中乙醇掺混比的增大,发动机的炭烟、NO_x和CO排放逐渐降低,小负荷时乙醇的高汽化潜热导致HC排放明显升高。     

含氧燃料与进气氧浓度对柴油机燃烧与排放的影响

在1台4缸高压共轨柴油机上,通过向柴油中掺混0%,10%,20%正丁醇(质量分数),研究了在不同进气氧浓度条件下,掺混燃料含氧量对柴油机燃烧特性与排放的影响规律。研究结果表明:进气氧体积分数处于20%~21%之间时,燃用3种燃料的滞燃期均不随氧浓度的变化而变化;随着掺混比例的增加,燃料中含氧量增加,这导致了滞燃期的增加,且随着进气氧浓度的降低,滞燃期受燃料性质的影响作用不断增强;随着燃料中含氧量增加,炭烟(Soot)排放逐渐减小;掺混燃料的含氧量对NO_x排放的影响不明显,而对指示热效率的提升有积极作用,在进气氧体积分数小于15%时,燃料含氧量对指示热效率的促进作用减弱。     

变海拔下米勒循环对柴油机及DPF性能的影响

基于某高压共轨柴油机建立了一维热力学仿真模型,对DPF选型进行了优化,并分析了不同海拔下米勒循环对柴油机及DPF性能的影响。结果表明,选择非对称结构以及适当增加载体目数都有利于降低DPF压降,同时可降低DPF对柴油机动力性、经济性及原始排放的影响。进气门早关可以降低柴油机有效燃油消耗率,提高热效率,降低NOx排放,但会导致颗粒物排放增加;同时可降低DPF压降,提高DPF捕集效率,且随海拔升高,进气门早关的时刻越小,作用越明显。在低海拔条件下,进气门晚关策略对柴油机动力性、经济性及排放特性均影响不大;在高海拔条件下,适当增加进气门晚关时刻可以改善柴油机性能。     

柴油机应用非标柴油一二甲醚混合燃料的性能研究

对非标柴油—二甲醚混合燃料在柴油机上的应用进行研究.结果表明:燃用D50混合燃料柴油机动力性略有下降,但是排放性能大为改善,尤其是烟度;调整供油提前角对D50柴油机的动力性影响不大,供油提前角14°曲轴转角时柴油机的排放性能最佳;采用EGR技术可有效地降低NOx排放,但是在大负荷下加大废气引入量将会导致燃烧恶化,炭烟排...     

天然抗氧化剂对生物柴油燃烧特性的影响研究

针对生物柴油氧化安定性较差的特点,在调和油B20中添加天然抗氧化剂,改善生物柴油的氧化安定性.通过发动机台架试验,测量了标定转速、不同负荷时,分别添加迷迭香与茶多酚两种抗氧化剂的生物柴油K1B20和K2B20的示功图,并与燃用柴油B0、生物柴油B100以及调和油B20进行对比,探讨了抗氧化剂对柴油机燃烧过程的影响.结果表明:低负荷时,与燃用B0相比,燃用B100的最高燃烧压力、最大压力升高率升高,瞬时放热率峰值降低,滞燃期缩短,燃烧持续期延长;与燃用B20相比,燃用K1B20和K2B20的压力曲线与瞬时放热率曲线形状以及燃烧特性参数基本相同.全负荷时,随生物柴油掺混比的增加,最高燃烧压力降低;燃用K1B20和K2B20的最高燃烧压力升高,对应的曲轴转角略有延迟,最大压力升高率峰值基本相同,对应曲轴转角延迟.燃用K1B20和K2B20对柴油机的输出功率影响不大,与B20相比,滞燃期与燃烧持续期略有缩短,排气温度有所降低.     

Effects of diesel fuel characteristics on spray and combustion in a diesel engine

Fuel properties play a dominant role in the spray, mixture formation and combustion process, and are a key to emission control and efficiency optimization. This paper deals with the influence of the fuel properties on the spray and combustion characteristics in a high-pressure and temperature chamber. Light diesel fuel spray and combustion images were taken by using a high-speed video camera and analyzed by their penetration and evaporation characteristics in comparison with current diesel fuel. Then, a single-cylinder DI engine was used to investigate combustion and exhaust characteristics. The mixture formation of the light diesel fuel is faster than that of the current fuel depending on physical properties like boiling point, density, viscosity and surface tension. Engine test results show that smoke is reduced without an increase in other emissions.     

柴油机燃用麻疯树油甲酯的氮氧化物排放特性

研究了柴油机燃用麻疯树油甲酯的NOx排放特性。以1台轻型车用直喷式柴油机为试验样机,分别燃用6种不同生物柴油掺混比例的混合燃油,研究总的NOx排放以及NO,NO2,N2O等NOx主要组分的排放特性。结果表明,燃用各种混合燃油的NOx排放曲线形态较为接近,低负荷时差异较小,随负荷增加,排放差异增大。NOx排放以NO和NO2为主,NO排放随着负荷上升而增加,NO在总NOx排放中始终占有最高比例。NO2排放也占有相当比例,在低负荷时较高,随着负荷增大浓度降低,大负荷高温不利于NO2的生成。N2O排放量极低,在中低负荷时有一定生成量,高负荷N2O排放几乎为0,缸内稀燃低温有利于N2O排放的生成。在同一稳定工况下,随生物柴油混合比的提高,NOx,NO,NO2比排放量呈线性增加,N2O比排放量呈线性降低。发动机燃烧生物柴油后,NOx及其组分NO,NO2和N2O的排放量发生改变,而各自的排放变化规律并未发生变化。     

内燃机掺氢燃烧可行性分析

利用氢和汽油或柴油共同作为燃料,可使汽油或柴油充分燃烧,大幅度节约汽油或柴油,降低排气污染,这在目前是很有意义的。文章综述了掺氢内燃机的研究现状,分析内燃机掺氢燃烧（以汽油机为主）的特性、掺氢燃烧的优势以及掺氢对柴油机过量空气系数的影响,通过内燃机掺氢以后动力性能、经济性能与排放性能的改变,论证了掺氢内燃机的优势及市场的潜力。     

Knock in dual-fuel diesel combustion with an E85 ethanol/gasoline blend by multi-dimensional simulation

In this paper, knocking combustion in dual-fuel diesel engine is modeled and investigated using the CFD code coupled with detailed chemical kinetics. The ethanol/gasoline blend E85 is used as the primary fuel in a dual-fuel combustion concept based on a light-duty diesel engine equipped with a common-rail injection system. The E85 blend is injected and well mixed with intake air in the intake manifold and is ignited by the direct injection diesel fuel. A 46-species, 187-reaction Multicomponent mechanism is adopted to model the auto-ignition process of the E85/air/diesel mixture ahead of the flame front. Based on the model validation, knocking combustion under boost and full load operating condition for 0 %, 20 %, 50 %, as well as 70 % E85 substitute energy is simulated. The effects of E85 substitute rate and two stage injection strategies on knock intensity, power output, as well as location of the auto-ignition initiation is clearly reproduced by the model. The calculation result shows that, for a high E85 rate of 50 % and 70 % with single injection strategies, the most serious knock and the origin of auto-ignition always occurs far away from where the flame of diesel spray is first generated, at the center of combustion chamber, due to higher pressure wave, relatively richer E85 mixture and longer distances of flame propagation. The two stage injection strategies with a small amount of diesel pilot injection ahead of the main injection primarily influence the ignition behavior of the directly injected fuel, leads to a lower pressure rise rate and a reduced propagation distance, both of which contribute to the attenuation of knock intensity for a higher E85 rate.     

部分加氢生物柴油改善柴油机的燃烧与排放（双语出版）

部分加氢工艺可显著提升生物柴油的氧化安定性,同时改善燃料的着火性能,是提高生物柴油品质的有效途径。以Raney-Ni为催化剂,异丙醇为供氢体,在85℃的水环境下对大豆生物柴油进行催化转移加氢试验,得到部分加氢生物柴油,并以传统柴油作为参照,分别制备B20（80%传统柴油+20%生物柴油）和PHB20（80%传统柴油+20%加氢生物柴油）,在186FA型柴油机上进行发动机性能试验,并使用燃烧分析仪、尾气分析仪和烟度计等仪器探究加氢生物柴油对柴油机燃烧过程及排放性能的影响。研究结果表明：柴油机燃用柴油、B20及PHB20的当量燃油消耗率基本相当;在标定工况下,尽管加氢生物柴油运动黏度略有升高而不利于燃油雾化,但其十六烷值较高更易于燃烧,在燃料特性的综合影响下,与柴油机燃用柴油相比,B20和PHB20的着火时刻依次提前了0.8 °曲轴转角和1.4 °曲轴转角,瞬时放热峰及最大爆发压力亦随之提前,但最大放热率和最大爆发压力依次略有降低;在标定工况下,与燃用柴油相比, B20的HC,CO和烟度排放分别下降了9.9%、9.3%和15.2%,NO_x排放上升了8.5%;而PHB20的HC,CO和烟度排放分别下降了12.4%、13.5%和17.1%,NO_x排放上升了6.7%;综合可见,PHB20改善柴油机燃烧及排放的效果优于B20。