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伴随着柴油机排放标准的日益严格,柴油机排气后处理愈来愈受到重视。介绍了柴油机排气PM和NOX控制技术的进展情况及存在问题,并提出了今后的努力方向。 相似文献
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柴油机已在全球范围得到广泛应用,柴油机排放的颗粒物(PM)对环境具有十分恶劣的影响,降低其颗粒物排放是目前的研究热点。文章介绍了车辆排气中颗粒物的组成和生成机理,阐述了目前正在应用及研究的6种颗粒物排放后处理技术。指出我国硫含量过高限制了许多种类的颗粒物排放后处理技术的运用,因此我国应采用各种可靠性较高的主动再生柴油机颗粒捕集器。 相似文献
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简要介绍了国内外柴油机排气后处理最新技术及其应用现状,阐述了它们各自的特点、综合应用以及有待改进的方面,并对未来超低排放法规的柴油机排气后处理技术进行了探讨和展望。 相似文献
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为了满足日益严格的汽车排放法规,应运而生了不少排放控制技术。现介绍国外最新柴油车排气后处理技术。 一、DOC_S技术 柴油车氧化催化转化器(DOC_S)的使用将促进新一代排气后处理技术的广泛应用。氧化催化转化器使CO和HC氧化生成CO_2和H_2O,从而净化排气中CO和HC,此法具有净化效率高、 相似文献
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车用柴油机排放控制技术浅探 总被引:1,自引:0,他引:1
本文分析了车用柴油机排放污染物的生成原理,介绍了5项机内净化技术,3项机外净化技术以及2项燃料技术,提出了车用柴油机排放控制技术总路线。 相似文献
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改善柴油机排放的核心是对燃烧过程进行优化,通过改善燃烧过程来降低柴油机排放是当前柴油机研究中的重要课题。本文主要从优化进气系统、优化喷油系统、优化燃烧室结构、燃料的改质及优化润滑系统五个方面进行分析,综合这些相互制约的优化措施优化柴油机的燃烧过程,降低颗粒物质PM和NOx的直接排放。 相似文献
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J. Lee S. Choi H. Kim D. Kim H. Choi K. Min 《International Journal of Automotive Technology》2013,14(4):551-558
Recent studies on dual-fuel combustion in compression-ignition (CI) engines, also known as diesel engines, fall into two categories. In the first category are studies focused on the addition of small amounts of gaseous fuel to CI engines. In these studies, gaseous fuel is regarded as a secondary fuel and diesel fuel is regarded as the main fuel for combustion. The objectives of these studies typically involve reducing particulate matter (PM) emissions by using gaseous fuel as a partial substitution for diesel fuel. However, the addition of gaseous fuel raises the combustion temperature, which increases emissions of nitrogen oxides (NOx). In the second category are studies focused on reactivity-controlled compression-ignition (RCCI) combustion. RCCI combustion can be implemented by early diesel injection with a large amount of low-reactivity fuel such as gasoline or gaseous fuel. Although RCCI combustion promises lower NOx and PM emissions and higher thermal efficiency than conventional diesel combustion, it requires a higher intake pressure (usually more than 1.7 bars) to maintain a lean fuel mixture. Therefore, in this study, practical applications of dual-fuel combustion with a low air-fuel ratio (AFR), which implies a low intake pressure, were systemically evaluated using propane in a diesel engine. The characteristics of dualfuel combustion for high and low AFRs were first evaluated. The proportion of propane used for four different operating conditions was then increased to decrease emissions and to identify the optimal condition for dual-fuel combustion. Although the four operating conditions differ, the AFR was maintained at 20 (? approximately equal to 0.72) and the 50% mass fraction burned (MFB 50) was also fixed. The results show that dual-fuel combustion can reduce NOx and PM emissions in comparison to conventional diesel combustion. 相似文献
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