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Impact of UV–H2O2 Advanced Oxidation and Aging Processes on GAC Capacity for the Removal of Cyanobacterial Taste and Odor Compounds

机译：UV-H2O2高级氧化和老化过程对GAC去除蓝藻味和气味化合物的能力的影响

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Cyanobacteria and their taste and odor (T&O) compounds are a growing concern in water sources globally. Geosmin and 2-methylisoborneol (MIB) are the most commonly detected T&O compounds associated with cyanobacterial presence in drinking water sources. The use of ultraviolet and hydrogen peroxide (H2O2) as an advanced oxidation treatment for T&O control is an emerging technology. However, residual H2O2 (>80% of the initial dose) has to be removed from water prior final disinfection. Recently, granular activated carbon (GAC) is used to remove H2O2 residual. The objective of this study is to assess the impact of H2O2 quenching and aging processes on GAC capacity for the removal of geosmin and MIB. Pilot columns with different types of GAC and presence/absence of H2O2 have been used for this study. H2O2 removal for the operational period of 6 months has no significant impact on GAC capacity to remove the geosmin and MIB from water.

机译：蓝细菌及其味道和气味（T＆O）化合物在全球水资源中日益引起关注。 Geosmin和2-甲基异冰片醇（MIB）是与饮用水源中的蓝细菌有关的最常见的T＆O化合物。紫外线和过氧化氢（H2O2）作为T＆O控制的高级氧化处理方法是一项新兴技术。但是，在最终消毒之前必须从水中去除残留的H2O2（>初始剂量的80％）。最近，颗粒状活性炭（GAC）用于去除H2O2残留。这项研究的目的是评估H2O2淬火和老化过程对GAC去除土臭素和MIB的能力的影响。具有不同类型GAC和是否存在H2O2的中试柱已用于本研究。运行6个月的H2O2去除对GAC从水中去除土臭素和MIB的能力没有重大影响。

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期刊名称 Environmental Health Insights
作者
Arash Zamyadi; Emma Sawade; Lionel Ho; Gayle Newcombe; Ron Hofmann;
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年(卷),期 2015(9),Suppl 3
年度 2015
页码 1–10
总页数 10
原文格式 PDF
正文语种
中图分类公共卫生工程;
关键词
advanced oxidation UV–H2O2 granular activated carbon GAC taste and odor cyanobacteria water treatment;

机译：先进的氧化;UV-H2O2;颗粒状活性炭;GAC;味道和气味;蓝细菌;水处理;
入库时间 2022-08-17 12:14:46

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专利

1. Impact of UV–H2O2 Advanced Oxidation and Aging Processes on GAC Capacity for the Removal of Cyanobacterial Taste and Odor Compounds [J] . Arash Zamyadi, Emma Sawade, Lionel Ho, Environmental Health Insights . 2015,第Supplaa3期

机译：UV-H2O2高级氧化和老化过程对GAC去除蓝细菌味和气味化合物的能力的影响
2. Comparison of O-3 + GAC, O-3 + H2O2 + GAC, and GAC unit operation on natural organic matter and taste and odor causing compounds removal using a pilot plant study [J] . Park Hanbai, Kim Tae-Yul, Woo Dalsik, Water science & technology . 2015,第6期

机译：使用中试工厂研究比较O-3 + GAC，O-3 + H2O2 + GAC和GAC单元在天然有机物以及引起味道和气味的化合物去除方面的操作
3. Kinetic removal of haloacetonitrile precursors by photo-based advanced oxidation processes (UV/H2O2, UV/O-3, and UV/H2O2/O-3) [J] . Srithep Sirinthip, Phattarapattamawong Songkeart Chemosphere . 2017,第JUNa期

机译：通过基于光的高级氧化工艺（UV / H2O2，UV / O-3和UV / H2O2 / O-3）动力学除去卤代乙腈前体
4. DIRECT UV AND UV OXIDATION PROCESSES FOR TREATMENT OF TASTE AND ODOR CAUSING COMPOUNDS IN WATER [C] . Karl Linden, Erik Rosenfeldt, Sharleen Johnson, Water quality technology conference . 2002

机译：直接的UV和UV氧化工艺处理水中的味觉和气味成分
5. Removal of conventional and novel taste and odour compounds from drinking water using UV photolysis and UV/hydrogen peroxide advanced oxidation. [D] . Gray, Scott Lindsay. 2006

机译：使用紫外线光解和紫外线/过氧化氢高级氧化去除饮用水中的传统和新颖的味觉和气味化合物。
6. Trace Organic Compound Removal from Wastewater Reverse-Osmosis Concentrate by Advanced Oxidation Processes with UV/O3/H2O2 [O] . Aviv Kaplan, Hadas Mamane, Yaal Lester, 2020

机译：通过UV / O3 / H2O2高级氧化工艺去除废水反渗透浓缩液中的痕量有机化合物
7. Impact of UV–H2O2 Advanced Oxidation and Aging Processes on GAC Capacity for the Removal of Cyanobacterial Taste and Odor Compounds [O] . Arash Zamyadi, Emma Sawade, Lionel Ho, 2015

机译：UV-H2O2晚期氧化和老化过程对去除蓝藻味和气味化合物的GAC能力影响

Impact of UV–H2O2 Advanced Oxidation and Aging Processes on GAC Capacity for the Removal of Cyanobacterial Taste and Odor Compounds

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