| 共沉淀法制备铁锌基中高温煤气脱硫剂简 |
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| 引用本文: | 孙振丽,杨新芳,田文栋,赵丽凤,肖云汉.共沉淀法制备铁锌基中高温煤气脱硫剂简[J].环境工程学报,2014,8(2):659-664. |
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| 作者姓名: | 孙振丽 杨新芳 田文栋 赵丽凤 肖云汉 |
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| 作者单位: | 1. 中国科学院大学, 北京 100049;2. 中国科学院先进能源动力重点实验室(工程热物理研究所), 北京 100190;3. 中国科学院能源动力研究中心, 连云港 222069;2. 中国科学院先进能源动力重点实验室(工程热物理研究所), 北京 100190;3. 中国科学院能源动力研究中心, 连云港 222069;2. 中国科学院先进能源动力重点实验室(工程热物理研究所), 北京 100190;3. 中国科学院能源动力研究中心, 连云港 222069;2. 中国科学院先进能源动力重点实验室(工程热物理研究所), 北京 100190;3. 中国科学院能源动力研究中心, 连云港 222069;2. 中国科学院先进能源动力重点实验室(工程热物理研究所), 北京 100190;3. 中国科学院能源动力研究中心, 连云港 222069 |
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| 基金项目: | 江苏省科技项目:煤气干法脱硫剂开发和实验研究(BY2011192) |
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| 摘 要: | 采用共沉淀法制备Cu-Zn-Fe脱硫剂,优化共沉淀制备工艺。固定床实验结果表明,共沉淀溶液中金属离子总浓度为0.6 mol/L,焙烧温度600℃,添加10%活性助剂Cu时所得Cu-Zn-Fe脱硫剂循环脱硫性能最佳,此时ZFDCu10脱硫剂的硫容可达到41.2 g S/100 g脱硫剂。XRD和SEM对铁锌基脱硫剂的表征结果表明,加入Cu助剂后少量的ZnO、CuO可阻碍ZnFe2O4晶粒聚集,增强铁锌基脱硫剂活性组分的分散性,避免大晶粒的ZnFe2O4硫化时形成较多的产物层而降低脱硫剂的利用率。实验结果为制备脱硫性能较好的Cu-Zn-Fe脱硫剂提供了理论依据。
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| 关 键 词: | 铁锌基 共沉淀 高温煤气 脱硫 |
Preparation of zinc ferrite-based sorbent using coprecipitation method for medium-high temperature coal gas desulfurization |
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| Sun Zhenli,Yang Xinfang,Tian Wendong,Zhao Lifeng and Xiao Yunhan.Preparation of zinc ferrite-based sorbent using coprecipitation method for medium-high temperature coal gas desulfurization[J].Techniques and Equipment for Environmental Pollution Control,2014,8(2):659-664. |
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| Authors: | Sun Zhenli Yang Xinfang Tian Wendong Zhao Lifeng and Xiao Yunhan |
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| Institution: | 1. University of Chinese Academy of Sciences, Beijing 100049, China;2. Key Laboratory of Advanced Energy and Power, Chinese Academy of Sciences (Institute of Engineering Thermophysics), Beijing 100190, China;3. Research Center for Clean Energy and Power, Chinese Academy of Sciences, Lianyungang 222069, China;2. Key Laboratory of Advanced Energy and Power, Chinese Academy of Sciences (Institute of Engineering Thermophysics), Beijing 100190, China;3. Research Center for Clean Energy and Power, Chinese Academy of Sciences, Lianyungang 222069, China;2. Key Laboratory of Advanced Energy and Power, Chinese Academy of Sciences (Institute of Engineering Thermophysics), Beijing 100190, China;3. Research Center for Clean Energy and Power, Chinese Academy of Sciences, Lianyungang 222069, China;2. Key Laboratory of Advanced Energy and Power, Chinese Academy of Sciences (Institute of Engineering Thermophysics), Beijing 100190, China;3. Research Center for Clean Energy and Power, Chinese Academy of Sciences, Lianyungang 222069, China;2. Key Laboratory of Advanced Energy and Power, Chinese Academy of Sciences (Institute of Engineering Thermophysics), Beijing 100190, China;3. Research Center for Clean Energy and Power, Chinese Academy of Sciences, Lianyungang 222069, China |
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| Abstract: | |
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| Keywords: | zinc ferrite-based coprecipitaion hot gas desulfurization |
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