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填料塔内相变凝结促进燃烧源超细颗粒的脱除 被引量:1

Removal of Combustion Originated Ultrafine Particles by Condensation Enlargement in Packed Column Scrubbers
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摘要 在填料塔洗涤器中,利用蒸汽相变原理进行了促进燃烧源超细颗粒凝结长大并高效脱除的实验研究,通过调节进口烟气含湿量及进口烟气与洗涤水的温差建立微粒凝结长大所需的过饱和水汽环境.研究了细颗粒粒径分布、进口烟气与洗涤水的温差、蒸汽添加量和液气比等对脱除效率的影响.结果表明:使烟气在填料塔内达到过饱和状态可高效脱除燃烧源超细颗粒,脱除效率随气液温差、液气比的增大而提高.在蒸汽添加量为0.08 kg/m3、气液温差为50°C时,燃煤超细颗粒脱除效率达到81%;在相同气液温差下,增大进口烟气含湿量,可显著提高超细颗粒的脱除效率. Based on the principal of vapor phase change, an experimental study on particle size enlargement through vapor nucleation and condensation for effective removal of combustion originated ultrafine particles has been carried out in a packed column scrubber. The supersaturation vapor condition required by condensation growth of these particles was reached by changing the moisture content in inlet flue gas and the temperature difference between inlet gas and scrubbing water. The influence of different operating conditions, such as particle size distribution, temperature difference between inlet gas and scrubbing water, additive vapor mass flow rate and water-gas ratio etc. , on particle removal efficiency, has been investigated. Results show that the ultrafine particles resulting from combustion can be effectively separated in case the supersaturation state of flue gas is reached in the packed column scrubber. The particle removal efficiency rises with increasing temperature difference between inlet gas and water, as well as with rising water-gas ratio, which can reach 81% with an additive vapor flow rate of 0.08 kg/m3 at a temperature difference of 50℃, while when the temperature difference keeps constant, this value may be highly improved by increasing the humidity of the inlet flue gas.
作者 颜金培 杨林军 张霞 孙露娟 张宇 沈湘林
机构地区 东南大学洁净煤发电及燃烧技术教育部重点实验室
出处 《动力工程》 EI CSCD 北大核心 2008年第2期288-291,332,共5页 Power Engineering
基金 国家自然基金资助项目(20576020) 国家重点基础研究发展计划资助项目(973计划)(2002CB211600)
关键词 环境科学 填料塔 凝结长大 过饱和 超细颗粒脱除 environmental science packed column condensation growth supersaturation ultrafine particle removal
分类号 X51 [环境科学与工程—环境工程]
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参考文献9

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动力工程
2008年 第2期

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