共查询到16条相似文献,搜索用时 125 毫秒
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复合型除尘器除尘脱硫一体化工艺实验研究 总被引:2,自引:0,他引:2
试验研究了专利产品“高压静电滤槽复合型卧式除尘器”的除尘脱硫一体化工艺。试验表明,在布袋前方的末级电场中实行半干法脱硫工艺具有可行性,可达到除尘脱硫一体化目的。试验同时研究了钙硫比、脱硫灰循环率、饱和温距、喷水量和SO2浓度等对脱硫率的影响。该工艺适用于以低硫煤为燃料的锅炉进行除尘脱硫。 相似文献
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本文介绍了国内外已应用的锅炉脱硫除尘一体化装置,并结合国情,提出了应重点发展的锅炉烟气脱硫除尘一体化装置. 相似文献
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喷流塔脱硫除尘技术研究 总被引:5,自引:1,他引:5
基于强化喷淋装置传质过程,开发了一种结构简单、压降小、效率高、生产能力大的脱硫除尘装置——喷流塔。实验表明,液气比L/G=15L/m3时,除尘效率≥994%,流化层压降≤300Pa;采用CaCa双碱法脱硫工艺,pH=7~8、L/G=10~12L/m3时,脱硫效率≥92%,流化层压降≤450Pa。在脱硫操作条件下可同时脱除996%以上的烟尘,适于脱硫除尘一体化操作。 相似文献
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以改进后的双循环多级水幕塔对烟气进行除尘脱硫性能的研究,利用双循环不同pH值控制的优点和多级水幕的效果,增加气液接触面积和传质动力,提高SO2吸收效果。在正交实验的最佳运行工况基础上,实验从烟气流量、上下两段pH、L/G和SO2进气浓度等方面进行单因素研究。结果表明,除尘效率维持在98%以上,进气SO2浓度在5 000 mg/m3以下时,脱硫率在93%以上。上段pH值为6、下段pH值为5、L/G在15左右的脱硫效率和运行工况最佳,无结垢现象发生。改进后的吸收塔具有良好的应用前景,实验结果对于现场脱硫设备的调试和运行有很好的参考价值。 相似文献
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介绍了一种集多种湿法除尘技术之长于一体的新型组合式除尘装置,该装置不仅能有效地消除手烧锅炉燃烧时产生的烟尘,而且实现了除尘水的内循环,消除了其他湿式除尘器所带来的水的二次污染问题。 相似文献
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针对露天矿破碎站粉尘污染严重、治理技术中存在的缺陷,提出了超声波雾化喷雾降尘技术。以平朔安家岭煤矿为例,根据破碎站区域粉尘污染情况,应用数学模型对破碎站粉尘逸散规律进行解算,将模拟结果与现场实测数据对比,确定对卸载坑采用150~300μm雾滴粒径和对破碎机各产尘点采用1~10μm雾滴粒径的机体梁上外喷雾方式,通过对采取治理方案后破碎站粉尘浓度逸散的数值模拟和现场实际应用后的测试数据,显示全尘和呼吸性粉尘降尘效率分别达到94%和82%。结果表明,超声波喷雾降尘技术能有效降低破碎站粉尘浓度,保障了作业人员工作环境和安全。 相似文献
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Raisaku Kiyoura 《Journal of the Air & Waste Management Association (1995)》2013,63(3):173-175
Concepts for controlling SO2 from fossil fuels can be separated into two main categories: (1) Residual and vacuum gas oil desulfurization and (2) Flue gas desulfurization. The Kiyoura-T.I.T. process confines itself to the desulfurization of flue gas. It employs vandium oxide as a catalyst which oxidizes the sulfur dioxide to trioxide, followed by a gaseous phase reaction of ammonia. The end product, ammonium sulfate is removed by an electrostatic precipitator. (The details were presented at annual meetings of APCA in 1966 and 1967 as 1 and II.) Flue gas is passed through cyclone and dust filter to remove dust. Under normal operating conditions almost all of the dust is removed at the filters. The author carried out experiments to determine whether there was any effect on the activity of the catalyst, assuming that a portion of the dust escapes into the stream along the flue. It has been generally accepted that in fuel oil firing steam power plants, about 100 mg./nm3 of dust including carbon, hydrocarbon, and ash are normally contained in the flue stream. The carbon and hydrocarbon is oxidized readily at the filters and exists only as ash. An amount of ash equivalent to the amount assumed to have settled on the catalyst over a period of 3–12 months, was placed on the catalyst, and experiments were carried out. The SO2 conversion efficiency was measured and found to be over 93%. The results showed that at the actual operational temperature of 450°C, ash had practically no effect at all. 相似文献