NOM AND MIB, WHO WINS IN THE COMPETITION FOR ACTIVATED CARBON ADSORPTION SITES?

G Newcombe; C Hepplewhite; D R U Knappe

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NOM AND MIB, WHO WINS IN THE COMPETITION FOR ACTIVATED CARBON ADSORPTION SITES?

机译：NOM和MIB，谁赢得了活性炭吸附网站的竞争？

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The adsorption of an odour compound common in drinking water, 2-methylisoborneol (MIB), was studied on two powdered activated carbons in the presence of 13 well-characterised natural organic matter (NOM) solutions. It was found that, although the carbons and the NOM solutions had a wide range of characteristics, the major competitive mechanism was the same in all cases. The low molecular weight NOM compounds were the most competitive, participating in a direct competition with the MIB molecule for adsorption sites. Equivalent background concentration (EBC) calculations indicated a relatively low concentration of directly competing compounds in the NOM. Some evidence of pore restriction was also seen, with microporous carbons most affected by low molecular weight NOM, and mesoporous carbons impacted by the higher molecular weight compounds.

机译：在13种特性良好的天然有机物（NOM）溶液中，研究了两种粉末状活性炭对饮用水中常见的气味化合物2-甲基异冰片醇（MIB）的吸附。结果发现，尽管碳和NOM溶液具有广泛的特性，但主要竞争机制在所有情况下都是相同的。低分子量NOM化合物竞争最激烈，参与与MIB分子对吸附位点的直接竞争。等效背景浓度（EBC）计算表明NOM中直接竞争化合物的浓度相对较低。还观察到了一些限制孔的证据，低分子量NOM对微孔碳的影响最大，而高分子量化合物对中孔碳的影响最大。

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来源
《Water》 |2003年第1期|p.33-36|共4页
作者
G Newcombe; C Hepplewhite; D R U Knappe;
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作者单位

Cooperative Research Centre for Water Quality and Treatment, PMB 3, Salisbury, South Australia 5108;

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原文格式 PDF
正文语种 eng
中图分类市政工程;
关键词
activated carbon; adsorption; natural organic material; tastes and odours; adsorption competition;

机译：活性炭;吸附天然有机材料;味道和气味;吸附竞争;

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专利

1. NOM and MIB, who wins in the competition for activated carbon adsorption sites? [J] . Hepplewhite C, Newcombe G, Knappe DRU Water Science and Technology . 2004,第9期

机译：NOM和MIB，谁在活性炭吸附位点的竞争中获胜？
2. Simultaneous adsorption of MIB and NOM onto activated carbon.I.Characterisation of the system and NOM adsorption [J] . G.Newcombe, J.Morrison, C.Hepplewhite Carbon: An International Journal Sponsored by the American Carbon Society . 2002,第12期

机译：MIB和NOM同时吸附到活性炭上I.系统表征和NOM吸附
3. Anionic exchange for NOM removal and the effects on micropollutant adsorption competition on activated carbon [J] . Jingyi Hu, Alexis Martin, Ran Shang Separation and Purification Technology . 2014,第Null期

机译：阴离子交换去除NOM及其对活性炭上微污染物吸附竞争的影响
4. NOM and MIB, who wins in the competition for activated carbon adsorption sites? [C] . C. Hepplewhite, G. Newcombe, D.R.U Knappe, International Symposium on Off-Flavours in the Aquatic Environment . 2004

机译：NOM和MIB，谁赢得了活化碳吸附位点的竞争？
5. Adsorption of pharmaceutically active compounds (PhACs) by powdered activated carbon from natural water --- Influence of Natural Organic Matter (NOM). [D] . Gao, Yaohuan. 2010

机译：粉末状活性炭从天然水中吸附药物活性化合物（PhAC）---天然有机物（NOM）的影响。
6. Nitrogen Self-Doped Activated Carbons Derived from Bamboo Shoots as Adsorbent for Methylene Blue Adsorption [O] . Bingbing Mi, Jingxin Wang, Hongzhong Xiang, 2019

机译：竹笋衍生的氮自掺杂活性炭作为亚甲基蓝吸附剂
7. Adsorption of natural organic matter (NOM) on granular activated carbon in the treatment of drinking water [O] . Le Duc Duy 2008

机译：饮用水处理中颗粒状活性炭对天然有机物的吸附
8. Granular Activated Carbon Adsorption with On-Site Infrared Furnace Reactivation [R] . Koffskey, W. E. 1988

机译：现场红外炉再活化颗粒活性炭吸附

NOM AND MIB, WHO WINS IN THE COMPETITION FOR ACTIVATED CARBON ADSORPTION SITES?

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