电喷摩托车供油方式分析及燃油消耗量测量探讨

电喷摩托车供油方式和化油器摩托车截然不同,沿用化油器摩托车发动机的燃油消耗测量方式不能准确进行燃油消耗量的测量,必须根据具体特点,采用正确的方法,才能准确进行电喷摩托车和电喷发动机燃油消耗量的测量。     

Potential of low viscosity oils to reduce CO2 emissions and fuel consumption of urban buses fleets

This paper shows the results of a comparative fleet test the main objective of which was to measure the influence of Low Viscosity Oils (LVO) over the fuel consumption and CO₂ emissions of urban buses. To perform this test, 39 urban buses, classified into candidate and reference groups depending on the engine oil viscosity, covered a 60,000 km mileage corresponding to two rounds of standard Oil Drain Interval (ODI). In the same way, for 9 buses of the 39 buses, the effect of differential LVO over fuel consumption and their interaction with engine LVO was assessed during the second ODI.Test results confirm that the use of LVO could reduce fuel consumption, hence CO₂ emissions. However, special attention should be taken prior to its implementation in a fleet, particularly if the vehicles are powered by engines with high mechanical and thermal stresses during vehicle operation because this could lead to friction loss increase, loss of the potential fuel consumption reduction of LVO and, in the worst scenario, higher rates of engine wear.     

Impact of transition between signal timing plans in social cost based in delay,fuel consumption and air emissions

Significant effects of traffic congestion include the cost associated with extra travel time, fuel consumption, and gas emissions. This paper develops a mathematical function to quantify the monetary impact of transition designs between signal timing plans on users and the environment. This function offers an approach to reduce problems such as excessive travel time, pollution emissions and fuel consumption. The proposed social cost function is evaluated for various transition plans to assess the impact of the number of steps required to adjust signal timing. The relationships between delay, fuel consumption and gas emissions and the number of steps needed to achieve the transition are also analysed.     

Optimal development of alternative fuel station networks considering node capacity restrictions

A potential solution to reduce greenhouse gas (GHG) emissions in the transport sector is the use of alternative fuel vehicles (AFV). As global GHG emission standards have been in place for passenger cars for several years, infrastructure modelling for new AFV is an established topic. However, as the regulatory focus shifts towards heavy-duty vehicles (HDV), the market diffusion of AFV-HDV will increase as will planning the relevant AFV infrastructure for HDV. Existing modelling approaches need to be adapted, because the energy demand per individual refill increases significantly for HDV and there are regulatory as well as technical limitations for alternative fuel station (AFS) capacities at the same time. While the current research takes capacity restrictions for single stations into account, capacity limits for locations (i.e. nodes) – the places where refuelling stations are built such as highway entries, exits or intersections – are not yet considered. We extend existing models in this respect and introduce an optimal development for AFS considering (station) location capacity restrictions. The proposed method is applied to a case study of a potential fuel cell heavy-duty vehicle AFS network. We find that the location capacity limit has a major impact on the number of stations required, station utilization and station portfolio variety.     

Short/medium-term prediction for the aviation emissions in the en route airspace considering the fluctuation in air traffic demand

This paper proposes a novel short/medium-term prediction method for aviation emissions distribution in en route airspace. An en route traffic demand model characterizing both the dynamics and the fluctuation of the actual traffic demand is developed, based on which the variation and the uncertainty of the short/medium-term traffic growth are predicted. Building on the demand forecast the Boeing Fuel Flow Method 2 is applied to estimate the fuel consumption and the resulting aviation emissions in the en route airspace. Based on the traffic demand prediction and the en route emissions estimation, an aviation emissions prediction model is built, which can be used to forecast the generation of en route emissions with uncertainty limits. The developed method is applied to a real data set from Hefei Area Control Center for the en route emission prediction in the next 5 years, with time granularities of both months and years. To validate the uncertainty limits associated with the emission prediction, this paper also presents the prediction results based on future traffic demand derived from the regression model widely adopted by FAA and Eurocontrol. The analysis of the case study shows that the proposed method can characterize well the dynamics and the fluctuation of the en route emissions, thereby providing satisfactory prediction results with appropriate uncertainty limits. The prediction results show a gradual growth at an average annual rate of 7.74%, and the monthly prediction results reveal distinct fluctuation patterns in the growth.     

双离合器自动变速器仿真研究

建立了双离合器自动变速器系统仿真模型,对双离合器自动变速器的动态特性进行了分析,并开发了换挡控制器。应用仿真软件对装有双离合器自动变速器的车辆进行了整车动态性能仿真。仿真结果表明,双离合器自动变速器具有和传统自动变速器相近的换挡品质。     

新型双能源电动汽车动力控制系统的仿真研究

从理论上分析了燃料电池／蓄电池双能源电动汽车的功率分配方法,并用SIMULINK建立了功率跟随模式控制策略的仿真模型。在ADVISOR上实现了对采用功率跟随模式控制策略虚拟样车的仿真,通过对仿真结果的分析验证了文中所述的控制策略。     

柴油出租车燃油经济性试验研究

为研究柴油出租车的燃油经济性,针对某柴油出租车制定了燃油消耗量试验方案并进行了道路试验.试验结果表明,在实际运营条件下,该柴油出租车平均百公里油耗为7.71 L/100 km.与相同排量汽油出租车相比,该柴油出租车平均每年每辆车可节省燃油4 649.78 L,节省燃油费用36 148.66元,分别节省29.52％和30.84％,节油效果显著.     

均质缸内直喷汽油机混合气形成过程的数值分析

针对某缸内直喷汽油机进行了喷油器喷嘴内部流场的多相流仿真分析,并将其结果作为初始条件输入到喷射模型中.将校定后喷射模型集成到缸内混合气动态分析模型,进而对发动机的缸内燃油与空气混合过程进行了欧拉--拉格朗日仿真分析.通过比较两款不同喷束的喷油器发现:缸内混合气的均匀度对于喷束布置较为敏感,比较宽广的喷束布置方案易于得到更加均匀的混合气.     

驻车加热器燃用3种燃料的燃烧性能试验研究

针对乙醇、汽油、汽油和乙醇混合物(E50)等3种燃料,在某驻车加热器上进行了燃烧特性试验,研究3种燃料在燃烧器内稳定燃烧时各参数的变化,分析了不同工况下燃烧器内的温度变化以及过量空气系数对燃烧温度的影响.试验结果表明,3种燃料在燃烧室内各点温度变化规律与额定工况下相同;汽油的燃烧温度随过量空气系数的增大而减小,具有较好的燃烧性能;3种燃料的过量空气系数与风机电压基本呈线性关系.