Multipoint source method in air pollution modelling of cold start emission

The paper presents a new method of air pollution modelling on a micro scale. For estimation of concentration of car exhaust pollutants, each car is treated as an instantaneous moving emission source. This approach enables us to model time and spatial changes of emission, especially during cold and cool start of an engine. These stages of engine work are a source of significant pollution concentration in urban areas. In this work, two models are proposed: one for the estimation of emission after cold start of the engine and another for the prediction of pollutant concentration. The first model (defined for individual exhaust gas pollutants) enables us to calculate the emission as a function of time after the cold or cool start, ambient temperature and average speed of motion. This model uses the HBEFA database. The second mathematical model is developed in order to calculate the pollutant dispersion and concentrations. The finite volume method is applied to discretise the set of partial differential equations describing wind flow and pollutant dispersion in the domain considered. Models presented in this paper can be called short-term models on a small spatial scale. The results of numerical simulation of pollutant emission and dispersion are also presented.     

上海市机动车排污状况与污染控制战略

通过对上海市中心城区机动车行驶工史现状的主要特点及发展趋势的分析，计算出中心城区１９９５年机动车尾气排放的ＣＯ、ＮＭＨＣ和ＮＯｘ负荷，分别占区域内机动车和固定源产排放总量的７６％、９３％和４４％，据预测，到２０１０年，中心城区内机动车排出的ＣＯ、ＮＭＨＣ和ＮＯｘ负荷，将分别占区域中机动车和固定源排放总量的９４％、９８％和７５％，因此，针对机动车排污所面临的严峻挑战，需要采取加强机动车检查与维修（Ｉ     

机动车排出物对人体健康危害的研究

运用基因、ＤＮＡ、染色体，细胞和整个动物为终点的远期危害测试系统，对各类机动车排出尾气的有机提取物的致突变性及潜在致癌性进行了评估，同时运用流行病学方法对接触人群进行调查，结果表明：（１）柴油车，助动车的颗粒有机提取物包含１００多种化学物，（２）Ａｍｅｓ、ＵＤＳ微核及ＳＨＥ细胞恶性转化试验为阳性结果，具有突变性及致癌性。（３）它们能使人胚细胞形成转化灶并发现其中的ｃ－ｍｙｃ，ｐ２１及ｂｃｌ－２表达     

柴油机排放碳颗粒物的催化燃烧

在热天平装置上考察了柴油机和碳颗粒物燃烧催化剂的活性，讨论了样品制备因素对样品失重的影响，这些因素包括碳颗粒物组成、催化剂栽体、催化剂与碳颗粒物质量比，着重筛选了催化剂的组份，得到了组份催化剂ＣｕＣｌ２－ＫＣｏ－ＮＨ４ＶＯ３其５５０℃焙烧后能使样品的Ｔｍ和Ｔｆ值都降低１８０℃以上，并对催化剂的热稳定性进行了研究。     

含铅,无铅汽油车尾气排出物遗传毒性比较

利用台架试验模拟汽车行驶工况，收集了发动机使用无铅汽油，含铅汽油燃烧后的尾气颗粒物，对其中吸附的有机物进行了提取，并以Ａｍｅｓ试验，中国仓鼠肺细胞体外微核实验等方法，从基因，染色体水平检测了两种颗粒提取的遗传毒性。     

上海市大气中非甲烷烃与机动车尾气排放研究

采用特征性化合物法和统计法相结合的方法,对上海市大气中非甲烷烃(NMHC)与作为机动车尾气特征性化合物的CO与Pb进行了相关性分析。结果发现,NMHC与Pb在显著性水平0.01下显著性相关,相关系数达到0.593(n=18);NMHC与CO小时均值相关系数达到0.495(n=2329),日均值相关系数达到0.581(n=114)。从而判断机动车尾气排放已经逐渐成为上海市大气中NMHC的主要贡献者。     

麻石文丘里洗涤吸收器在APV尾气处理上的应用

介绍了ＡＰＶ喷雾干燥尾气的性质，原尾气系统存在的问题，改造中采取的措施、原理、流程和取得的效果。实践证明，用“麻石文丘里一次降温、洗涤—ＸＰ型塔板二次洗涤—旋流除雾器除雾”的改造方案，取代原“换热器降温—喷淋塔洗涤—折流脱水器脱水”的流程，取得了良好的降温、洗气和除雾效果，且工程费用低。     

机动车尾气污染物NO_X在主干道水平、垂直方向上的浓度分布规律初探

对南海市主干道汽车尾气污染物ＮＯｘ 在水平、垂直方向上的扩散分布进行初步探究。结果表明,ＮＯｘ 在水平、垂直方向上的扩散呈现一定的规律。并且交通、风、气温、光照是影响ＮＯｘ 浓度分布的重要因素。     

工业余热拆卸废旧电路板

电路板插槽元器件、通孔元器件、大元器件和小元器件的拆卸是废旧电路板资源化的第一步。前三者的拆卸率对后续的电路板粉碎有较大影响,是决定拆卸效果的重要参数。为探究工业余热拆卸废旧电路板方法中通气温度、加热时间和喷吹次数对元器件拆卸率的影响,找出最优的拆卸参数组合,进行了废旧电路板拆卸的正交实验。对元器件拆卸率、关键元器件总拆卸率的极差分析和方差分析表明,通气温度和加热时间的增大有利于元器件拆卸率增大;增加喷吹次数,有利于大元器件和小元器件的拆卸,但过多次数喷吹将造成插槽、通孔元器件引脚弯曲,拆卸率减小;通气温度、加热时间对元器件拆卸的影响不具显著性,喷吹次数仅对大元器件拆卸有显著性影响。综合分析关键元器件的拆卸率：通气温度350℃、加热时间5 min和喷吹6次是最优的拆卸参数组合,关键元器件总拆卸率达到98.6%。     

Influence of driving cycles on exhaust emissions and fuel consumption of gasoline passenger car in Bangkok

The influence of different driving cycles on their exhaust emissions and fuel consumption rate of gasoline passenger car was investigated in Bangkok based on the actual measurements obtained from a test vehicle driving on a standard chassis dynamometer. A newly established Bangkok driving cycle (BDC) and the European driving cycle (EDC) which is presently adopted as the legislative cycle for testing automobiles registered in Thailand were used. The newly developed BDC is constructed using the driving characteristic data obtained from the real on-road driving tests along selected traffic routes. A method for selecting appropriate road routes for real driving tests is also introduced. Variations of keyed driving parameters of BDC with different driving cycles were discussed. The results showed that the HC and CO emission factors of BDC are almost two and four times greater than those of EDC, respectively. Although the difference in the NOx emission factor is small, the value from BDC is still greater than that of EDC by 10%. Under BDC, the test vehicle consumes fuel about 25% more than it does under EDC. All these differences are mainly attributed to the greater proportion of idle periods and higher fluctuations of vehicle speed in the BDC cycle. This result indicated that the exhausted emissions and fuel consumption of vehicles obtained from tests under the legislative modal-type driving cycle (EDC) are significantly different from those actually produced under real traffic conditions especially during peak periods.