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炼铁烧结除尘灰湿法脱除模拟烟气中的SO_2

Wet desulfurization from simulated flue gas by iron smelting sintering dust
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摘要 为了考察炼铁烧结除尘灰作为脱硫剂的效果,研究了湿法脱硫过程中固液比、氧气含量、吸收剂温度、气体流速、进口SO_2质量浓度、搅拌强度等影响因素对脱除效率的影响规律。结果表明,最佳反应温度为25℃;随着温度升高,SO_2溶解度降低,吸收液对SO_2吸收能力降低;气体流量增加,SO_2在吸收剂中停留时间变短,导致脱除率降低;固液比增加,气固接触概率也随之增大,SO_2脱除率也增大;进口SO_2质量浓度的提高导致液相中氢氧根消耗加剧,使反应速率减慢,不利于对SO_2的去除。同时发现,SO_2浓度增加则溶解分数减小,吸收率也会随之降低;搅拌速率的增加使得气泡破碎加剧,增大气液接触面积,使除尘灰充分悬浮在液相中,与溶液中的SO_2迅速反应,有利于SO_2的吸收。O_2含量增加,有利于O_2的溶解,增加了化学反应的推动力,有利于SO_2吸收反应的进行。除尘灰对含二氧化硫气体具有较好的脱硫效果,有一定的应用前景。 In this study, the produced dust from iron-sintering work was used as the desulfurizer. Then the effects of factors in the wet desulphurization process, such as solid-liquid ratio, oxygen content, absorbent temperature, gas flow rate, inlet SO2 mass concentration and stirring intensity on SO2 removal efficiency were studied. The results showed that the optimum desulphurization temperature was 25 ℃, and with the increase of temperature, SO2 solubility and its absorption capacity by the absorption solution also dropped. As the gas flow rate increased, SO2 retention time in absorption solution decreased, then SO2 removal efficiency was also reduced accordingly. Meanwhile, an increased solid-liquid ratio could lead to the improvement of gas solid contact probability SO2 removal ratio. However, the rise of inlet SO2 mass concentration could increase the OHconsumption in liquid phase, and slowed the wet desulphurization reaction rate which was against the SO2 removal. Meanwhile, the rise of SO2 concentration also caused the decrease of SO2 dissolution ratio and adsorption ratio. The increase of the stirring intensity intensified the bubble breakage, enlarged the gas-liquid contact area, then the iron smelting sintering dust could fully suspend in the liquid phase and rapidly reacted with SO2, thus, the SO2 absorption was strengthened. Furthermore, the increase of oxygen concentration was conducive to its dissolution, the driving force of the chemical reaction was enhanced, and SO2 absorption reaction was facilitated. Dust from iron-sintering work has showed a considerable desulfurization efficiency and some application prospects.
作者 王思鼎 宁平 张冬冬 李创 吴琼 李石雷 张慧芳 李鹏毅 WANG Siding;NING Ping;ZHANG Dongdong;LI Chuang;WU Qiong;LI Shilei;ZHANG Huifang;LI Pengyi(Faculty of Environment Science and Engineering,Kunming University of Science and Technology,Kunming 650500,China)
出处 《环境工程学报》 CAS CSCD 北大核心 2019年第3期672-677,共6页 Chinese Journal of Environmental Engineering
基金 国家自然科学基金资助项目(21507050) 国家重点研发计划项目(2017YFC0210504) 昆明理工大学分析测试基金资助项目(2017M20162107024 2017M20162107044 2018M20172207061 2018M20172107027 2018T20120053)
关键词 工业烟气脱硫 炼铁除尘灰资源化 脱硫剂 industrial flue gas desulfurization resource utilization of iron smelting sintering dust desulfurizer
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