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短回转窑-立窑型废线路板高温焚烧冶炼炉 被引量:6

HIGH-TEMPERATURE INCINERATION AND SMELTING FURNACE COMPOSED OF SHORT ROTARY KILN AND SHAFT KILN FOR WASTE PRINTED-CIRCUIT BOARDS
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摘要 针对传统冲天炉或鼓风炉焚烧废线路板有毒害尾气氧化不完全而存在的排放黑烟、排放恶臭性气味等环境污染问题,研发一种由短回转窑和立窑组成的废线路板高温资源化处置炉。短回转窑完成废线路板粉料喷射燃烧和金属熔炼,立窑完成尾气充分氧化。半工业性试验表明,烟气中无苯类化合物成分,二噁英含量0.02 TEQng/m3,烟气林格曼黑度1,炉渣浸出液无毒性,无需额外燃料。证实了废线路板高温焚烧冶炼处置的可行性,高温焚烧能从源头上消除二噁英形成所需的前驱物质,处置炉优化思路是集成高温焚烧、低NOx焚烧、炉渣贫化冶炼和烟气干法急冷等技术。 To solve environmental pollution of obvious poisonous black smoke and fetid odor from the incomplete oxidization of toxic flue gas when printed-circuit boards( PCBs) are disposed with shaft furnace or blast furnace,a new high-temperature incineration and smelting composite-type furnace of waste PCBs composed by a short rotary kiln and a shaft kiln has been developed. The spray combustion of PCB powder and metal melting is completed in the rotary kiln,the toxic flue gas is oxidized completely in the shaft kiln. Semi-industrial experiments show that there is no benzene compound in flue gas,tetrachlorodibenzo-p-dioxin( TCDD) content is less than 0. 02 TEQng / m3 and Lingeman blackness of flue gas 1; there is no heavy metals pollution in the slag and no extra fuel is needed. The feasibility of high-temperature incineration and smelting process of waste PCBs has been proved,TCDD precursor is eliminated from the source completely under the high-temperature incineration,and the optimization methods of the resourcization disposal furnace is the integration of high-temperature combustion,low NOxcombustion,slag reduction smelting and flue gas dry rapid-cooling.
作者 艾元方 何世科 孙彦文 陈红荣 王威平
机构地区 中南大学能源科学与工程学院 浙江环益科技有限公司
出处 《矿冶》 CAS 2014年第5期86-91,共6页 Mining And Metallurgy
基金 浙江省2009年重大科技专项和优先主题项目(2009C03007-5)
关键词 废线路板 危险废弃物焚烧 资源化处置炉 再生铜冶炼 二噁英 waste printed-circuit boards hazardous waste incineration resourcization disposal furnace copper recycling smelting tetrachlorodibenzo-p-dioxin
分类号 X705 [环境科学与工程—环境工程]
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参考文献16

  • 1Goosey M, Kellner R. Recycling technologies for the treat- ment of end of life printed circuit boards (PCBs) [ J ]. Circuit World, 2003, 29(3) : 33-37.
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二级参考文献8

  • 1周全法.国内外电子废弃物处置现状与发展趋势[J].江苏技术师范学院学报,2006,12(2):4-9. 被引量:27
  • 2Goosey M, Kellner R. Recycling technologies for the treatment of end of life printed circuit boards (PCBs) [ J]. Circuit World, 2003, 29 : 33-37.
  • 3Sakai S I, Watanabe J, Honda Y, et al. Combustion of brominated flame retardants and behavior of its byproducts [J]. Chemosphere, 2001, 42: 519-531.
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  • 5张锁荣,周全法,朱炳龙,等.废线路板全组分高值化清洁利用新工艺:中国,200910029927.7[P].2009-11-04.
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  • 7中国环境科学研究院固体废物污染控制技术研究所,环境标准研究所.危险废物鉴别标准-浸出毒性鉴别GB5085.3-2007[S].北京:中国环境科学出版社,2007.
  • 8张绍坤.回转窑处理危险废物的工程设计[J].冶金设备,2010(2):58-62. 被引量:13

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矿冶
2014年 第5期

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