450吨的钢架压住了他

美国康涅灼克州米尔福德镇,严冬的寒风刺痛了菲奇的脸,他朝发电厂建筑工地的吊车走去.菲奇操纵了44年重型设备,每天与建筑钢件工人一起吊运钢材,互相建立了特殊而深厚的情谊.     

重型柴油车污染物排放量计算方法比较分析

目的 计算大功率大吨位级重型柴油车的污染物排放量.方法 根据《公路隧道通风设计细则》和世界道路协会(PIARC)2012年技术报告,分别计算32 t重型柴油车的污染物排放量和稀释污染物所需的通风量,对比分析两种计算方法的差异.结果 对《公路隧道通风设计细则》中柴油车的车型系数和海拔高度系数提出建议.根据世界道路协会(PIARC)2012年技术报告,在0～2000 m低海拔地区,国产32 t柴油车的CO、NOx和烟尘排放量分别为88.6、166.0 m3/(h·veh)和84.2 m2/(h·veh),如果考虑NOx的空气污染,稀释单辆国产32 t柴油车排放污染物所需空气量约为33000 m3/h;如果不考虑NOx的空气污染,所需空气量约为28000 m3/h.结论 结合工程实际,建议大功率大吨位级重型柴油车的污染物排放量根据世界道路协会(PIARC)2012年技术报告进行计算.     

走在上班路上被汽车撞死能认定为工亡吗？

编辑同志:我厂临时工杜国臣于2005年9月15日16时20分在上班途中发生车祸,肇事车辆逃逸,杜国臣当场死亡。具体情况是:杜国臣家住距我公司20多km的农村,正常上班时从家骑自行车到上班的必经之路——长清公路路口,然后在路口等公共汽车或方便车到公司上班。事发当日,由于杜国臣骑自行车到路口时没有碰上公共汽车和方便车,他寄存完自行后便在长清公路路西由北向南行走,边走边等车,行至长清公路70.5km处时,被后方同向行驶的1辆不明重型货车撞伤致死,不明重型货车驾驶员驾车逃逸。经长春市公安局交通警察支队双阳区大队交通事故认定:事故后驾驶员…     

基于车载测试的重型柴油车尾气典型烷烃排放特征

本文采用车载排放测试系统对11辆国Ⅰ~国Ⅳ标准重型柴油车进行实际道路测试,利用GC-MS对样品中典型烷烃进行定量分析,解析重型柴油车尾气典型烷烃排放特征及规律.结果表明,排放标准对重型柴油车尾气中正构烷烃、藿烷类有机物排放有显著影响,总体呈现随排放标准的加严而降低的趋势,相比于国Ⅰ测试车辆,国Ⅳ测试车辆正构烷烃、17α(H),21β(H)-C30藿烷(C30-藿烷)、22S-和22R-17α(H),21β(H)-C31升藿烷(22S-C31升藿烷;22R-C31升藿烷)总排放因子分别降低了72.23%,64.95%,70.78%和74.68%.气相正构烷烃呈双峰前锋型,以C17~C18为主峰碳,固相呈单峰前锋型,以C18~C21为主峰碳.藿烷类有机物其22S-C31升藿烷/(22S-C31升藿烷+22R-C31升藿烷)的比值在0.46~0.56之间,平均值为0.50,符合石油中藿烷的分布特征.正构烷烃总排放因子与17α(H),21β(H)-C30藿烷总排放因子呈现出一定的线性关系,其R~2为0.926 8.此外,行驶工况对测试车辆正构烷烃及藿烷类有机物排放有较大影响,非高速工况下排放因子是高速工况的1.69~2.42倍.     

Experimental study on filtration and continuous regeneration of a particulate filter system for heavy-duty diesel engines

This study investigated the filtration and continuous regeneration of a particulate filter system on an engine test bench, consisting of a diesel oxidation catalyst（DOC） and a catalyzed diesel particulate filter（CDPF）. Both the DOC and the CDPF led to a high conversion of NO to NO2 for continuous regeneration. The filtration efficiency on solid particle number（SPN） was close to100%. The post-CDPF particles were mainly in accumulation mode. The downstream SPN was sensitively influenced by the variation of the soot loading. This phenomenon provides a method for determining the balance point temperature by measuring the trend of SPN concentration.     

Carbonyl emissions from heavy-duty diesel vehicle exhaust in China and the contribution to ozone formation potential

Fifteen heavy-duty diesel vehicles were tested on chassis dynamometer by using typical heavy duty driving cycle and fuel economy cycle. The air from the exhaust was sampled by 2,4- dinitrophenyhydrazine cartridge and 23 carbonyl compounds were analyzed by high performance liquid chromatography. The average emission factor of carbonyls was 97.2 mg/km, higher than that of light-duty diesel vehicles and gasoline-powered vehicles. Formaldehyde, acetaldehyde, acetone and propionaidehyde were the species with the highest emission factors. Main influencing factors for carbonyl emissions were vehicle type, average speed and regulated emission standard, and the impact of vehicle loading was not evident in this study. National emission of carbonyls from diesel vehicles exhaust was calculated for China, 2011, based on both vehicle miles traveled and fuel consumption. Carbonyl emission of diesel vehicle was estimated to be 45.8 Gg, and was comparable to gasolinepowered vehicles （58.4 Gg）. The emissions of formaldehyde, acetaldehyde and acetone were 12.6, 6.9, 3.8 Gg, respectively. The ozone formation potential of carbonyls from diesel vehicles exhaust was 537 mg O3/km, higher than 497 mg O3/km of none-methane hydrocarbons emitted from diesel vehicles.     

加拿大重型设备操作人员健康风险报告

重型设备操作人员所暴露出来的风险成因明显不同于建筑行业的其他职业。长时间坐立、全身受到振动,而且是重复性的控制操作,这些都是造成作业人员肌肉骨骼紊乱的关键因素。     

农村危桥改造要加速——项城塌桥引发的思考

河南省项城市水新公路的汾河板桥发生坍塌事故,造成一辆满载沙子的重型卡车和一辆微型面包车落水,一辆出租车和中型货车坠落桥下,两人轻微伤。据悉,坍塌桥梁于1977年建设,2001年河南省交通厅检查时将     

重型柴油车车载排放实测与加载影响研究

采用车载排放测试仪,对2辆重型柴油卡车在空载和加载条件下进行实际道路车载排放测试.通过分析获得了油耗与排放速率的速度-加速度及其工况点的分布,发现高油耗与高排放工况点主要集中在高速加速区域,加载时油耗与排放高值随工况点分布更广;车辆在(30±2.5)km·h^-1等速及加速行驶时受加载影响最大,此时加载油耗与排放约是空载的1.6～3.2倍左右;由实测结果发现,卡车Ⅰ和卡车Ⅱ加载时油耗及CO、HC、NO_x排放因子分别是空载的1.6倍、3.5倍、1.1倍、1.5倍以及1.2倍、1.0倍、0.9倍和1.5倍,加载对油耗与NO_x排放影响最为明显,对HC影响最小,CO影响取决于车辆保养水平;卡车Ⅱ较卡车Ⅰ车型更大,发动机功率更高,相同荷载时受加载影响较小,说明重型车在发动机负荷可承受的范围内合理装载,有助于避免油耗与排放恶化,提高燃油经济性和排放水平.