柴油车氧化催化剂在抑制硫酸盐颗粒物形成方面的研究进展

柴油车氧化催化剂能够有效减少柴油车尾气中颗粒物的排放量，但是催化剂对尾气中SO2的氧化会导致硫酸盐形成和释放，使总颗粒物的去除效果下降，因此，控制催化剂上硫酸盐颗粒物的形成相当关键。本文从选择活性组分、助剂、载体涂层及相应的制备工艺方面总结评述了近年来有关抑制硫酸盐颗粒物形成新采用的主要催化剂技术。     

柴油车尾气碳烟颗粒物催化燃烧催化剂的最新研究进展

柴油车尾气排放的碳烟颗粒已经引起了严重的环境污染问题,必须加以净化处理.柴油车碳烟颗粒的低温燃烧离不开高活性的催化剂.针对柴油车排放的碳烟颗粒物后处理方法中的催化氧化技术,总结了近年来几种主要类型的碳烟燃烧催化剂(贵金属催化剂、碱金属催化剂、单组分过渡金属氧化物催化剂、多组分混合氧化物催化剂和固定结构复合氧化物催化剂)的最新研究进展,并对该研究方向存在的主要问题和应用前景进行了探讨.     

柴油车排气颗粒物的后处理技术

本文分析探讨了柴油机排气颗粒物的组成、危害及后处理技术。介绍了颗粒捕集器及其消极和积极再生方法、采用氧化催化剂或四效催化剂的催化净化器和低温等离子体—催化净化技术。     

基于MOVES的轻型车颗粒物排放来源和特征分析

利用实测数据对MOVES模型进行本地化修正,测算了轻型车颗粒物的排放来源以及粒径、组分构成特征。分析结果表明,全部颗粒物中,轻型汽油车的非尾气排放PM10所占比例为72.70%,PM2.5为42.64%;轻型柴油车非尾气排放PM10所占比例为40.78%,PM2.5为15.41%。2种燃油车辆的尾气排放颗粒物主要来源于尾气管排放,粒径集中在0~2.5μm;而非尾气排放颗粒物主要来源于刹车磨损,粒径集中在2.5~10μm。轻型汽油车的尾气排放颗粒物主要组分为有机碳,轻型柴油车则为元素碳和有机碳。进一步分析不同速度下颗粒物排放变化发现:轻型车非尾气排放颗粒物随行驶速度的增大而降低,而尾气排放颗粒物则随速度的增大先降低后升高;非尾气排放颗粒物占全部颗粒物比例随速度的增大先升高再降低;全部颗粒物中PM2.5的比例则随速度的增大先降低后升高。     

柴油车排气颗粒物的后处理技术

本文分析探讨了柴油机排气颗粒物的组成、危害及后处理技术。介绍了颗粒捕集器及其消极和积极再生方法、采用氧化催化剂或四效催化剂的催化净化器和低温等离子体 -催化净化技术。     

柴油车尾气颗粒物净化用SiC过滤材料的研究与应用

近年来,SiC材料作为一种新型的柴油车尾气颗粒物过滤材料获得了迅速发展,正逐步取代目前广泛应用的堇青石多孔陶瓷材料.结合堇青石和SiC过滤材料的性能特点,重点概述了2种SiC改性过滤材料(重结晶SiC.RSiC和硅结合SiC,Si-SiC)的研究和应用进展,并介绍了SiC颗粒物过滤器的市场现状和发展前景.     

河南省在用柴油车加载减速烟度排放限值研究

随着车辆技术进步和燃油品质提升,河南省在用柴油车加载减速污染物现行排放限值已不能对高排放车辆进行有效监控。依据《确定压燃式发动机在用汽车加载减速法排气烟度排放限值的原则和方法》(HJ/T 241—2005),采用相对光吸收系数与累积频率法,对9 458份在用柴油车检测数据进行统计分析,提出符合河南省的在用柴油车排放限值。建议河南省在用国三、国四、国五轻型柴油车尾气光吸收系数限值分别为0.98、0.89、0.76m~(-1),而相应重型柴油车尾气光吸收系数限值分别为0.66、0.62、0.48m~(-1);依据该限值,河南省在用柴油车的年检合格率控制在82.6%,高排放柴油车比例为17.4%,符合HJ/T 241—2005的要求。     

双组分甲苯、氯苯的微波辅助催化氧化及机理

通过微波辅助氧化典型挥发性有机化合物甲苯与氯苯的实验,探讨了TiO2-5A分子筛复合载体负载铜、锰、铈催化剂活性组分的存在形式及其与催化氧化活性的关联,研究采用SEM、EDS、BET、XRD、XPS以及FTIR等方法对催化剂进行了表征。研究表明,双组分中甲苯的完全转化温度(T95)比单组分的要高出31℃,而单组分氯苯在双组分氯苯的T90温度下可被完全转化,催化剂上目标物的竞争吸附降低了其催化氧化效果。XRD和XPS分析表明,催化剂中的活性物质以多价态氧化物CuO/Cu2O、MnO2/MnO以及Cu1.5Mn1.5O4和CuMn2O4尖晶石形式均匀分散于载体表面,Cu2+/Cu+、Mn4+/Mn2+的相互转化促进了电子转移增强了甲苯氯苯被氧化的性能,以及有更高催化活性的CuMn2O4尖晶石的形成有利于催化剂活性的提高。CeO2/Ce2O3相互转化加强了催化剂表面储氧、输氧的能力并加快了氧化反应速率。FTIR与粉红色尾气吸收液检测结果推测:甲苯首先氧化成苯甲醛、苯甲酸类物质,而氯苯氧化成苯酚,210℃下可最终氧化成二氧化碳和水。     

汽车尾气颗粒物对动物肺泡巨噬细胞的免疫毒性及比较

研究汽车尾气颗粒物气管染毒后对大鼠肺泡巨噬细胞免疫功能的影响，结果是动物肺泡巨噬细胞Ｆｃ受体表达、ＡＭ抗肿瘤细胞毒作用、抗体介导细胞毒作用受到抑制，具有明显的剂量效应关系；总体比较，汽油车尾气颗粒物对ＡＭ免疫功能影响较柴油车严重。     

Mn/GO复合催化剂催化氧化NO

针对尾气中NO浓度高且传统方法脱除NO代价高的问题,研究了锰固载氧化石墨诱导单过硫酸氢钾(PMS)催化氧化并吸收NO方法。通过浸渍法在氧化石墨上负载了Mn3O4制得Mn/GO催化剂,以此为催化剂催化PMS氧化NO。研究了p H、PMS投加量、催化剂投加量以及温度等因素对NO氧化率的影响。结果表明,该系列Mn/GO催化剂可以有效地诱导PMS氧化NO,热处理时间为7 h时催化效果最佳。同时,对Mn/GO(7 h)的FT-IR、XRD、SEM、EDS以及XPS表征可知,Mn3O4是主要的锰氧化物,并成功负载在GO表面。     

柴油机微粒捕集器臭氧再生法离线再生

由R175型柴油机、微粒捕集器(Φ90 mm×150 mm)、CF-G10型臭氧发生器组成实验系统,进行了臭氧再生法离线再生研究。研究表明,在190℃温度下,再生气从DPF上游侧进气再生时,臭氧可以有效再生DPF,再生效率可达90%以上,再生效率达到65%左右时发生臭氧穿透,臭氧利用率下降;穿透时间点随微粒捕集时的柴油机载荷增大而提前,随微粒捕集时间增加而提前;臭氧供给量不变,再生气流量越大,再生效果越明显;再生气从DPF下游侧进气再生时,臭氧穿透时间点较上游侧进气再生滞后,但发生穿透后DPF几乎不再再生,总再生效率低于70%。结果表明,微粒捕集器臭氧再生法是可行的,对于如何提高臭氧利用率需进一步研究。     

柴油机排放颗粒物净化技术研究进展

柴油机被认为是城市大气微粒的主要污染源。柴油机颗粒物组成复杂并且颗粒粒径甚小,大都属于亚微米级粒子和纳米级粒子。因而柴油机颗粒物对人类健康和大气环境的影响受到世人的广泛关注。本文主要对柴油机排放颗粒物的生成机理、化学组成及危害、物理性质、检测方法和净化技术等方面进行综述与探讨。     

柴油机排气微粒过滤催化处理技术及进展

介绍了柴油机微粒后处理催化捕集器特点 ,评述了过滤器催化再生方法 ,综述了蜂窝陶瓷载体涂层及催化剂活性组分研究现状。重点阐述了微粒再生催化剂研究进展及其发展趋势     

可旋转径向式微粒捕集器消声特性影响因素灰色关联分析

为降低可旋转径向式微粒捕集器中的排气噪声,采用有限元法建立可旋转径向式微粒捕集器声学特性模型,分析得到了其消声特性和传递损失曲线,并采用灰色关联分析方法研究可旋转径向式微粒捕集器结构参数对消声特性的影响程度。结果表明,可旋转径向式微粒捕集器具有降噪能力,且对高频噪声消声效果明显好于低频噪声,平均消声量为20 dB左右;直径比和扩张管锥角是影响可旋转径向式微粒捕集器消声特性的2个主要因素,适当选用小的直径比和扩张管锥角,有利于提高可旋转径向式微粒捕集器的消声性能。     

Particulate matter in new technology diesel exhaust (NTDE) is quantitatively and qualitatively very different from that found in traditional diesel exhaust (TDE)

Diesel exhaust (DE) characteristic of pre-1988 engines is classified as a "probable" human carcinogen (Group 2A) by the International Agency for Research on Cancer (IARC), and the U.S. Environmental Protection Agency has classified DE as "likely to be carcinogenic to humans." These classifications were based on the large body of health effect studies conducted on DE over the past 30 or so years. However, increasingly stringent U.S. emissions standards (1988-2010) for particulate matter (PM) and nitrogen oxides (NOx) in diesel exhaust have helped stimulate major technological advances in diesel engine technology and diesel fuel/lubricant composition, resulting in the emergence of what has been termed New Technology Diesel Exhaust, or NTDE. NTDE is defined as DE from post-2006 and older retrofit diesel engines that incorporate a variety of technological advancements, including electronic controls, ultra-low-sulfur diesel fuel, oxidation catalysts, and wall-flow diesel particulate filters (DPFs). As discussed in a prior review (T. W. Hesterberg et al.; Environ. Sci. Technol. 2008, 42, 6437-6445), numerous emissions characterization studies have demonstrated marked differences in regulated and unregulated emissions between NTDE and "traditional diesel exhaust" (TDE) from pre-1988 diesel engines. Now there exist even more data demonstrating significant chemical and physical distinctions between the diesel exhaust particulate (DEP) in NTDE versus DEP from pre-2007 diesel technology, and its greater resemblance to particulate emissions from compressed natural gas (CNG) or gasoline engines. Furthermore, preliminary toxicological data suggest that the changes to the physical and chemical composition of NTDE lead to differences in biological responses between NTDE versus TDE exposure. Ongoing studies are expected to address some of the remaining data gaps in the understanding of possible NTDE health effects, but there is now sufficient evidence to conclude that health effects studies of pre-2007 DE likely have little relevance in assessing the potential health risks of NTDE exposures.     

柴油机排放碳颗粒物和NOx催化净化技术的研究进展

本文从柴油机排放的特点、柴油机排放的标准、柴油机排放碳颗粒物和NOx催化净化技术等方面进行了综述与探讨,就柴油机排放碳颗粒物和NOx催化净化技术的研究提出了一些建议和设想.     

Gas-phase and semivolatile organic emissions from a modern nonroad diesel engine equipped with advanced aftertreatment

ABSTRACT

U.S. Tier 4 Final and Euro Stage IV and V regulations for nonroad compression-ignition engines have led to the development of exhaust aftertreatment technologies optimized for nonroad engines and duty cycles. In this study, several aftertreatment configurations consisting of state-of-the-art diesel oxidation catalysts (DOCs), diesel particulate filters (DPFs), copper (Cu) zeolite– and vanadium-based selective catalytic reduction (SCR) catalysts, and ammonia oxidation (AMOX) catalysts are evaluated using both nonroad transient (NRTC) and steady (8-mode NRSC) cycles in order to understand both component- and system-level effects of diesel aftertreatment on gas-phase, semivolatile, and particle-phase and particle-bound unregulated organic emissions. Organic emissions reported in this work include total hydrocarbon (THC), n-alkanes, branched alkanes, saturated cycloalkanes, aromatics, aldehydes, ketones, hopanes, steranes, and soluble organic fraction (SOF). Brake-specific emissions are reported for four configurations, including engine-out, DOC+CuZ-SCR+AMOX, V-SCR+AMOX, and DOC+DPF+CuZ-SCR+AMOX, and conversion of engine-out emissions is reported for the three aftertreatment configurations. Mechanisms responsible for the reduction of organic species are discussed in detail. This summary of emissions from a current nonroad diesel engine equipped with advanced aftertreatment can be used to more accurately model the impact of anthropogenic emissions on the atmosphere with tools such as the U.S. Environmental Protection Agency’s Motor Vehicle Emissions Simulator (MOVES2014a) model.

Implications: Anthropogenic emissions are a source of significant human health and environmental risk. This study, focused on the treatment of exhaust emissions from a modern nonroad diesel engine with a variety of aftertreatment configurations, examines the impact that human industrial activity can have on air pollution. In particular, we focus on the remediation of gas-phase and semivolatile organic emissions by emission reduction technologies. This detailed summary of emissions from a current nonroad diesel engine equipped with advanced aftertreatment can be used to more accurately model the impact of anthropogenic emissions on the atmosphere with tools such as the U.S. Environmental Protection Agency’s MOVES2014a model.