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钢铁行业是我国二噁英的第一大排放源,但对不同钢铁生产过程二英的生成排放认识有所欠缺.本文系统探究了钢铁行业不同物料的二噁英生成能力和同系物分布特征.结果表明,烧结飞灰的二英生成能力最强,而烧结生料生成二噁英能力最弱.3种污泥(连铸、热轧、冷轧)和烧结生料的二英生成途径相似,4种飞灰(电炉、转炉、高炉一次、高炉二次)之间也有相似的二英生成途径,而烧结飞灰则与其他物料均不同.所有物料中,有毒2,3,7,8-PCDD同系物之间存在极强的相关性,且氯酚合成二噁英路径也被发现存在于钢铁生产过程中. 相似文献
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2011年中国钢铁行业典型有害重金属大气排放清单 总被引:4,自引:0,他引:4
根据中国钢铁工业年鉴等统计资料,采用排放因子法,对2011年我国钢铁行业生产活动导致的汞(Hg)、铅(Pb)、镉(Cd)、砷(As)、铬(Cr)、镍(Ni)等6种有害重金属的大气排放及其分布特征进行了研究,并给出了分省区排放清单.结果表明,2011年中国钢铁行业汞、铅、镉、砷、铬、镍大气排放量分别约为18.8, 3745.8, 39.4, 132.2, 241.2, 105.3t;钢铁行业重金属大气排放集中在环渤海经济圈以及长三角地区,其中河北东部及中南部、山东中部等钢铁冶炼企业集中地区重金属大气排放强度较大;钢铁企业内部炼钢工艺对重金属大气排放贡献率较高,其中转炉工序对砷、铅排放贡献率较大,电炉工序对于镉、镍贡献率较大. 相似文献
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在我国排放大气污染物许可证试点工作中,需要确定污染物排放量,以达到总量控制之目的,利用排放系数可以估算各污染源的排放置。本文介绍了有色冶炼,化工制酸排放SO_2,水泥生产中排放粉尘及钢铁工业排放烟尘的排放系数及计算方法。 相似文献
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The iron and steel industry is not only an important foundation of the national economy, but also the largest source of industrial air pollution. Due to the current status of emissions in the iron and steel industry, ultra-low pollutant emission control technology has been researched and developed. Liquid-phase proportion control technology has been developed for magnesian fluxed pellets, and a blast furnace smelting demonstration project has been established to use a high proportion of fluxed pellets (80%) for the first time in China to realize source emission reduction of SO2 and NOx. Based on the characteristics of high NOx concentrations and the coexistence of multiple pollutants in coke oven flue gas, low-NOx combustion coupled with multi-pollutant cooperative control technology with activated carbon was developed to achieve efficient removal of multiple pollutants and resource utilization of sulfur. Based on the characteristics of co-existing multiple pollutants in pellet flue gas, selective non-catalytic reduction (SNCR) coupled with ozone oxidation and spray drying adsorption (SDA) was developed, which significantly reduces the operating cost of the system. In the light of the high humidity and high alkalinity in flue gas, filter materials with high humidity resistance and corrosion resistance were manufactured, and an integrated pre-charged bag dust collector device was developed, which realized ultra-low emission of fine particles and reduced filtration resistance and energy consumption in the system. Through source emission reduction, process control and end-treatment technologies, five demonstration projects were built, providing a full set of technical solutions for ultra-low emissions of dust, SO2, NOx, SO3, mercury and other pollutants, and offering technical support for the green development of the iron and steel industry. 相似文献
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京津冀地区钢铁行业污染物排放清单及对PM2.5影响 总被引:1,自引:0,他引:1
以京津冀地区为研究区域,采取自下而上的方法,建立京津冀地区钢铁行业细化至焦化、烧结和球团、炼铁、炼钢、轧钢等工序的多污染物排放清单.清单估算结果显示,2015年京津冀地区钢铁行业SO2、NOx、TSP、PM10、PM2.5、CO、VOC的排放量分别为38.82、27.23、79.19、53.15、38.68、823.38、26.53万t,其中烧结和球团工序是最主要的污染物排放工序(17.0%~72.0%),其次为炼铁工序(4.6%~42.4%)和轧钢工序(3.5%~35.7%).采用具有污染物来源示踪功能的双层嵌套气象-空气质量模型系统(WRF-CAMx)耦合模型模拟京津冀地区钢铁行业污染物排放对区域大气PM2.5浓度的影响.模拟结果显示:钢铁行业在春夏秋冬这4个季节对京津冀地区PM2.5浓度贡献率分别达到14.0%、15.9%、12.3%、8.7%.各地市中,钢铁行业对唐山市PM2.5影响最大,年均PM2.5浓度贡献率高达41.2%,其次为秦皇岛市、石家庄市、邯郸市,年均PM2.5浓度贡献率分别达到19.3%、15.3%、15.1%. 相似文献
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钢铁工业排放颗粒物中碳组分的特征 总被引:3,自引:3,他引:0
为探究钢铁工业排放颗粒物中碳组分的特征,使用荷电低压颗粒物撞击器(ELPI)采样,采集到3组不同载荷和除污设施的烧结炉和1组炼铁高炉排放的颗粒物样品,利用热-光反射法,分析颗粒物中的有机碳(OC)和元素碳(EC)以及按温度划分的7种碳组分物质.结果表明,烧结工艺排放颗粒物中OC的质量分数高于炼铁工艺,OC在PM_(10)和PM_(2.5)质量分数分别是(5.3±2.3)%和(7.1±3.0)%,说明OC易在细粒径段颗粒富集,炼铁工艺排放颗粒物中OC在PM_(10)和PM_(2.5)质量分数分别是2.5%和2.0%;4组样品的7种碳组分相对比例相似,OC2和OC3在7种碳组分中质量分数最高,EC1、EC2、EC3的质量分数依次递减,OC1的质量分数可能与锅炉规模和脱硫设施有关;另外,烧结工艺排放各粒径段的颗粒物中OC和EC表现出较高的相关性,一次排放的PM_(2.5)中的OC/EC为4.7±0.7,远高于受体中估算二次碳组分的指标值.钢铁工业排放颗粒物中碳质组分的深入分析,可以为受体碳质气溶胶的来源解析提供基础数据,也有助于钢铁工业后续的除污管理. 相似文献