| 不同微污染物作用下纳米SiO2和粉末活性炭的助凝效果对比研究 |
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| 引用本文: | 李冬梅,刘春柳,黄明珠,叶挺进,任毅,黄辉,何娜.不同微污染物作用下纳米SiO2和粉末活性炭的助凝效果对比研究[J].水处理技术,2011,37(2). |
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| 作者姓名: | 李冬梅 刘春柳 黄明珠 叶挺进 任毅 黄辉 何娜 |
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| 作者单位: | 1. 广东工业大学土木与交通工程学院,广东,广州,510006
2. 佛山市水业集团有限公司水质研发中心,广东,佛山,528000 |
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| 基金项目: | 国家自然科学基金项目(50170897); 粤港关键领域重点突破项目(2010Z524); 广东省科技计划项目(2010B030900001) |
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| 摘 要: | 以聚合氯化铝(PAC)为混凝剂,分别以纳米SiO2和粉末活性炭P-AC为助凝剂,对含有不同微污染物SDS、NH3-N或HA)的6 NTU高岭土低浊水进行混凝沉降试验,借助形态学理论和电镜观察与图像分析技术,研究纳米SiO2与P-AC对PAC于微污染物去除的助凝特性和絮凝形态学特性。结果表明,纳米SiO2对微污染物HA、SDS及NH3-N的助凝效果具有一定的选择性,对HA和SDS的作用效果明显,但对NH3-N几乎没有去除作用;纳米SiO2能促使PAC对微污染物HA、SDS的去除率分别提高40%~50%、30%~40%;P-AC能使PAC于HA的去除率提高约10%,但对小分子微污染物SDS、NH3-N的去除效果改善不明显;助凝剂纳米SiO2能提高PAC絮体结构的密实度和分维值,显著提高PAC对微污染物的去除率,而P-AC对絮体形态学特性改善效果不明显。
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| 关 键 词: | 聚合氯化铝 纳米SiO2 粉末活性炭 十二烷基硫酸钠 氨氮 腐植酸 絮凝形态学 |
COMPARATIVE STUDY ON FLOCCULATION AID CHARACTERISTICS OF NANOSILICA AND P- AC TO VARIOUS MICRO-POLLUTANTS |
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| Li Dongmei,Liu Chunliu,Huang Mingzhu,Ye Tingjin,Pen Yi,Huang Hui,He Na.COMPARATIVE STUDY ON FLOCCULATION AID CHARACTERISTICS OF NANOSILICA AND P- AC TO VARIOUS MICRO-POLLUTANTS[J].Technology of Water Treatment,2011,37(2). |
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| Authors: | Li Dongmei Liu Chunliu Huang Mingzhu Ye Tingjin Pen Yi Huang Hui He Na |
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| Affiliation: | Li Dongmei1,Liu Chunliu1,Huang Mingzhu2,Ye Tingjin2,Ren Yi1,Huang Hui1,He Na1(1.Faculty of Civil and Transportation Engineering Construction,Guangdong University of Technology,Guangzhou 510006,China,2.Water Research and Development,Foshan Water Group Co.,Ltd,Foshan 528000,China) |
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| Abstract: | For 6 NTU low turbidity kaolin suspension containing micro-pollutants(Dodecyl Sulfate SDS,Nitrogen NH3-N or humic acid-HA),flocculation and quiescent settling experiments were done by adding polyaluminium chloride(PAC),silica dioxide nano-particles and powdered activated carbon P-AC,respectively.The coagulation aid characteristics and flocculation morphologic properties of silica dioxide nano-particles and P-AC were investigated by using morphological theory,electron microscopic observation and image analys... |
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| Keywords: | polyaluminium chloride PAC nanosilica powdered activated carbon P-AC SDS NH3-N HA morphologic properties |
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