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Chen Guifang Sun Xiaofei Feng Yunqi Song Zhanlong Cui Lin Mao Yanpeng Ma Chunyuan Chen Shouyan 《Environmental science and pollution research international》2021,28(6):6664-6674
Environmental Science and Pollution Research - Mechanical vapor compression and multi-effect evaporation have been widely used in achieving zero discharge of desulfurization wastewater as they are... 相似文献
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Jun Li Liqiang Zhang Tao Wang Jingcai Chang Zhanlong Song Chunyuan Ma 《环境科学学报(英文版)》2021,33(1):119-129
Activated carbon (AC) has been widely used in the removal of SO2 from flue gas owing to its well-developed pore structure and abundant functional groups. Herein, the effect of alkali/alkaline earth metals on sulfur migration was investigated based on the dynamic adsorption and temperature programmed desorption experiment. The adsorption and desorption properties of six types of AC (three commercial and three laboratory-made) were carried out on a fixed-bed experimental device, and the physical and chemical properties of samples were determined by X-ray fluorescence, X-ray diffraction, scanning electron microscopy/energy dispersive X-ray, and X-ray photoelectron spectroscopy analysis. The experimental results showed that the adsorbed SO2 cannot be completely desorbed by increasing the regeneration temperature (350 – 850°C), while the SO2 fixed in the AC combines with the Ca-based minerals in the ash to form a stable sulfate. For different samples, higher ash content, higher CaO content in the ash and a more developed pore structure lead to a higher SO2 fixation rate. Moreover, the multiple adsorption-desorption cycles experiment showed that the effect of SO2 fixation is mainly reflected in the first cycle, after which the adsorption and desorption amount are approximately the same. This study elucidates the effect of alkali/alkaline earth metals on the adsorption-desorption cycle of AC, which provides a deeper understanding of sulfur migration in the AC flue gas desulfurization process. 相似文献
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采用激光相位多普勒颗粒分析仪(3D-PDA)测试了新型内旋/直复合流化方式下循环流化床烟气脱硫塔内与粘壁有关的气-液-固三相参数,试验证明:旋/直复合流化能够提高塔中下部特别是近壁处的气固切向速度及气固间相对切向滑移速度,增强扰动,同时提高脱硫塔中下部特别是近壁处的固体颗粒浓度,有利于促进液滴或含湿颗粒的高效利用和快速干燥,减轻粘壁;旋/直复合流化下液滴在塔内的分布变化也证明旋流风对促进液滴干燥、减轻粘壁的积极作用;旋流风量的增加对近壁处液滴的干燥速度及固体颗粒浓度的影响表明,旋流风量占总流量的16%左右合适。 相似文献
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