共查询到20条相似文献,搜索用时 46 毫秒
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本文概述了CNG单燃料电喷汽车的优势,并就国内外燃气汽车的发展概况进行了阐述,介绍了以长安铃木SZ7130轿车为平台开发的一款电控压缩天然气单燃料的汽车的基本情况 相似文献
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燃气汽车使用的范围越来越广,数量迅速增加。由于人们对它们的认识还未来得及跟上,还缺乏相应的了解,为了提高燃气汽车的性能和使用寿命,本文以原化油器式发动机汽车改装成开环控制的CNG两用燃料汽车为例,阐述燃气汽车(城市公交车)的正确使用和维护。 相似文献
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3常见故障诊断与排除(l)起动困难。首先应检查点火系统零部件的完好程度,因CNG两用燃料汽车点火线圈的输出电压不低于25kV,如果点火系统和燃料转换系统没有故障,那导致起动困难的直接原因是混合气的浓度。如混合气过浓,发动机会出现怠速不稳,排气放炮的现象,这时应清洗空 相似文献
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CNG汽车的试验研究 总被引:1,自引:0,他引:1
对58辆改装后的CNG/汽油两用燃料汽车,在相同试验条件下,分别燃用汽油,CNG时的动力性,燃料消一及排放等进行对比试验,可以看出,改装后的CNG汽车其燃用CNG时加速性能与燃用汽油相比下降较大,但燃料消耗量有所下降且怠速排放明显下降,同时,就在试验中存在的问题进行了讨论。 相似文献
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汽车能耗管理是我国公共管理面临的新课题。本文在概述有30年历史的美国汽车燃料经济性管理的基础上,分析了美国管理体制和机制的优势与缺陷,以期为迅速提升我国汽车能耗管理的水平提供参考。 相似文献
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Environmental improvement and energy issues are increasingly becoming more important as worldwide concerns. Natural gas is
a good alternative fuel that can help to improve these issues because of its large quantity and clean burning characteristics.
This paper provides the experimental performance results of a Bi-Fuel engine that uses Compressed Natural Gas as its Primary
fuel and gasoline as its secondary fuel. This engine is a modification of the basic 1.4-liter gasoline engine. Generally,
on the unmodified base engine, torque and power for CNG fuel are considerably lower than gasoline fuel. In this paper, the
influence of fuels on wall temperature, performance and emissions are investigated. 相似文献
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智能车的车速决策影响燃油经济性。以起步阶段加速工况的燃油经济性为优化目标,建立了瞬态燃油消耗模型,并提出了基于该模型的经济性换挡规律制定方法;根据车辆纵向动力学方程,建立了基于前向欧拉离散方法的车速状态转移方程,以及确定相应的初末约束条件、边界条件;基于动态规划最优性原理,提出了智能车起步过程的经济性车速规划方法,建立了基于速度状态搜索策略;根据Matlab/Simulink和CarSim联合仿真,对比了典型驾驶员速度跟随模式的燃油消耗水平,结果表明,基于动态规划优化后的经济性车速及相应的挡位序列具有良好的节油特性,可为智能车经济驾驶的车速规划及挡位规划提供指导。 相似文献
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氢燃料电池汽车被认为是 21世纪具有潜力的新能源清洁动力汽车之一,影响其推广应用的最重要因素是高成本,开展全生命周期经济性分析至关重要。目前国内外学者对氢燃料电池汽车的生命周期成本评价研究主要集中于零部件成本、燃料价格等因素,而考虑国家及地方补贴政策、运维和报废成本以及不同运营里程、不同车型下经济性分析的较少。从用户的角度,通过对购置成本、运营成本、维护成本、回收残值、补能和抗寒影响以及国家和地方补贴等多种因素进行综合分析,建立全生命周期成本模型,针对乘用车、客车和卡车等不同车型,分场景开展经济性成本评价,将其与传统燃油汽车和纯电动汽车的经济性进行对比分析。面向未来,作出经济性预测,并提出一系列对策建议。 相似文献
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This article presents a novel intersection traffic management system for automated vehicles and quantifies its impact on fuel consumption and greenhouse gas emissions of CO2 relative to traditional traffic signal and roundabout intersection control. The developed intelligent traffic management (ITM) techniques, which are based on a spatiotemporal reservation scheme, ensure that vehicles proceed through the intersection without colliding with other vehicles while at the same time reducing the intersection delay and environmental impacts. Specifically, the spatiotemporal reservation scheme provides each vehicle a collision-free path that is decomposed into a speed profile along with navigational instructions. The integration of the developed microscopic traffic simulator with instantaneous emission model, provides improved assessments of the environmental impact of traffic control strategies at intersections. The simulator architecture integrates several ITM algorithms, vehicle sensors, V2V/V2I communications, and emission and fuel consumption models. Each vehicle is modeled by an agent and each agent provides information depending on the specific vehicle sensors. The ITM system is supported by V2V and V2I communications, allowing the exchange of information among vehicles and infrastructure. The data include the estimated vehicle position and speed. Compared with traditional traffic management techniques, the simulation results prove that the proposed ITM system reduces CO2 emissions significantly. The research also shows that these reductions are more significant when the traffic flow increases. 相似文献
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通过软件ADVISOR对燃料电池电动车和各子系统进行了建模并对整车性能进行了仿真。仿真结果显示,在某种混合度下整车燃料经济性较高。通过仿真过程分析,描述了不同行驶循环的动力性要求、两供能部件效率以及混合度三者之间的相互影响和复杂关系,并给出了结论。 相似文献
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