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[颗粒活性炭对溴酸盐的还原作用]

[Bromate reduction by granular activated carbon].

作者信息

Huang Xin, Gao Nai-yun, Lu Pin-pin

机构信息

State Key Laboratory of Pollution Control and Resource Reuse, Tongji University, Shanghai 200092, China.

出版信息

Huan Jing Ke Xue. 2007 Oct;28(10):2264-9.

Abstract

Batch experiments were conducted to evaluate the kinetics of reducing bromate to bromide by granular activated carbon. Solution conditions were studied in details, such as pH, ionic strength, temperature and initial bromate concentration. The results showed the removal capacity of GAC was positively relevant to surface basic functional groups. The whole process was inhibited by other anions in solution and the inhibition sequence was NO3(-) > SO4(2-) > Cl(-). Pseudo-second order rate equation and intraparticle diffusion model were applied to fit the process of bromate reduction and the process of bromide formation, respectively, with regression coefficients higher than 0.97 at most cases. Bromate removal was found to be favored under conditions with low pH value and low ionic strength. Both sorption rate of bromate and formation rate of bromide were decreased, and then increased along with the increase of temperature during 15-42 degree C. In this experiment, the maximum adsorption capacity of GAC is 769.23 micromol/g (98.4 mg/g), whereas the sorption process is slow and easily influenced. It is concluded that the sorption of bromate by the micropore portion of GAC was influenced by the release of bromide.

摘要

进行了批次实验以评估颗粒活性炭将溴酸盐还原为溴化物的动力学。详细研究了溶液条件,如pH值、离子强度、温度和初始溴酸盐浓度。结果表明,颗粒活性炭的去除能力与表面碱性官能团呈正相关。整个过程受到溶液中其他阴离子的抑制,抑制顺序为NO3(-) > SO4(2-) > Cl(-)。分别应用伪二级速率方程和颗粒内扩散模型来拟合溴酸盐还原过程和溴化物形成过程,在大多数情况下回归系数高于0.97。发现低pH值和低离子强度条件有利于溴酸盐的去除。在15 - 42℃范围内,溴酸盐的吸附速率和溴化物的形成速率均先降低,然后随温度升高而增加。在本实验中,颗粒活性炭的最大吸附容量为769.23微摩尔/克(98.4毫克/克),而吸附过程缓慢且易受影响。得出结论,颗粒活性炭微孔部分对溴酸盐的吸附受到溴化物释放的影响。

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