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对自来水二氧化氯消毒控制三氯甲烷形成进行了试验研究,二氧化氯预消毒替代预氯化消毒可以降低水中的三氯甲烷,预消毒处理后形成三氯甲烷的反应受温度和反应时间的影响。使用二氧化氯与氯配制的混合消毒剂消毒时,随二氧化氯含量增加,水中的三氯甲烷将明显减少。 相似文献
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本文通过二氧化氯(ClO_2)对有机卤代物形成的影响、消毒效果、对健康的影响,以及去除水中污染物的能力和ClO_2发生技术等方面的综合评述,认为二氧化氯在饮用水消毒中的应用前景是乐观的。 相似文献
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二氧化氯(ClO_2)是一种强氧化剂,而非氯化剂,是纸浆和纤维的良好漂白剂。作为广谱杀菌剂,兼有氯气、氯胺和臭氧消毒的诸优点,它不与氨发生化学反应,与水中某些有机物发生氧化反应,不产生致癌的三氯甲烷,同时,杀菌效果不受pH变化影响,是一种理想的饮用水消毒剂,工业冷却水和某些工业废水的高效处理剂,以及食品保鲜剂。自从1937年,美国的Mathieson Alkali公司用SO_2还原NaClO_3实现工业化生产二氧化氯以来,氯酸钠一直是工业化生产二氧化氯的主林原料,按还原剂的不同,可分为氯化物法、二氧化硫法、甲醇法、非金属单质法、二氧化氮法、金属盐法、草酸法等、 相似文献
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二氧化氯(ClO_2)是一种强氧化剂,而非氯化剂,是纸浆和纤维的良好漂白剂。作为广谱杀菌剂,兼有氯气、氯胺和臭氧消毒的诸优点,它不与氨发生化学反应,与水中某些有机物发生氧化反应,不产生致癌的三氯甲烷,同时,杀菌效果不受pH变化影响,是一种理想的饮用水消毒剂,工业冷却水和某些工业废水的高效处理剂,以及食品保鲜剂。自从1937年,美国的Mathieson Alkali公司用SO_2还原NaClO_3实现工业化生产二氧化氯以来,氯酸钠一直是工业化生产二氧化氯的主要原料,按还原剂的不同,可分为氯化物法、二氧化硫法、甲醇法、非金属单质法、二氧化氮法、金属盐法、草酸法等、皆属化学法,需消耗大量辅助化学药剂。 相似文献
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简述了目前国内对饮用水中卤代烃类化合物的研究现状,根据对饮用水中卤代产物的形成及浓度受水源水中前驱物、饮用水消毒处理方法等因素的影响,阐述了控制饮用水消毒过程中卤代烃的形成途径。 相似文献
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饮用水中的病毒会引发人体健康风险,故消毒是饮用水生物安全的重要屏障。为了比较不同消毒工艺对病毒的灭活效果,在总结水介质中常见病毒的种类及特性的基础上,围绕当前饮用水处理中广泛应用的消毒工艺(氯、氯胺、臭氧、二氧化氯、紫外线),梳理了各种消毒工艺的原理、影响因素、消毒效果及实际应用中的问题。鉴于消毒工艺进水水质对病毒灭活效果影响较大,且饮用水常规、深度处理工艺均可直接、间接强化对病毒的去除效果,故提出"常规处理+深度处理+消毒"协同高效运行的饮用水多级屏障处理工艺,以有效控制病毒等致病微生物引发的饮用水水质风险。 相似文献
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二氧化氯杀灭小球藻 总被引:1,自引:0,他引:1
实验研究了二氧化氯投加量、小球藻的初始浓度、pH、有机物和氨氮含量对ClO2杀灭来自于水库水的小球藻的影响,考察了ClO2氧化与混凝工艺结合时去除小球藻的效果并对工艺条件进行优化。结果表明,ClO2在投加量1.1 mg/L下,接触10 min,小球藻的杀灭率为71.93%。小球藻的杀灭率随着ClO2投加量的增大和藻初始浓度的升高而提高,随水中有机物含量的增加而显著降低,氨氮含量对小球藻杀灭的效果影响很小。在酸性条件和碱性条件下,小球藻的杀灭率均随pH升高而急剧下降,而在中性至弱碱性区间内,藻的杀灭率随pH升高而缓慢下降。对于某以小球藻为优势藻的供水水库源水,ClO2氧化与混凝工艺结合,藻的去除率高达98.47%。除藻的最佳工艺条件为:二氧化氯投加量为0.5 mg/L,聚合氯化铝为5 mg/L,二氧化氯与混凝剂同时投加。 相似文献
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The trihalomethane (THM) concentrations in drinking water are greatly affected by the disinfection methods as well as the organic content of the water. The THM formation was shown to increase considerable during 24 hours. This indicates a higher concentration of THM at the consumers' tap compared to the levels in the outgoing water from the water work. The dosage ratio between chlorine and ammonium sulphate can be used to regulate the THM concentrations. Disinfection with a relatively high dosage of chlorine dramatically increase the THM level while the equal amount of chlorine dioxide produces trace concentrations of THM only. The relatively low THM concentrations in Swedish drinking water as compared to levels found in water from for example the USA may probably depend on the low chlorine dosage practiced in Sweden. 相似文献
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Svecevicius G Syvokiene J Stasiŭnaite P Mickeniene L 《Environmental science and pollution research international》2005,12(5):302-305
Goal, Scope and Background Chlorite (ClO2ˉ) is a primary decomposition product when chlorine dioxide (ClO2) is added during water treatment; therefore
the toxic effects of both compounds on aquatic organisms are possible. Limited data are available concerning their toxicity
to fish. The aim of this study was to investigate sensitivity of rainbow trout to acute and chronic toxicity of chlorine dioxide
and chlorite, and to estimate the Maximum-Acceptable-Toxicant-Concentration (MATC) of those compounds in fish.
Methods The acute and chronic toxicity of chlorine dioxide and chlorite to larval and adult rainbow trout was investigated in 96-hour
to 20-day laboratory exposures evaluating the wide range spectrum of biological indices under semi-static conditions.
Results and Discussion Median lethal concentration (96-hour LC50) values derived from the tests were: 2.2 mg/l for larvae; 8.3 mg/l for adult fish
and 20-day LC50 for larvae was 1.6 mg/l of chlorine dioxide, respectively. Chlorite was found to be from 48 to 18 times less
acutely toxic to larvae and adult fish, correspondingly. Both chemical compounds induced similar toxic effects in rainbow
trout larvae during chronic tests (they affected cardio-respiratory and growth parameters), but chlorine dioxide had a higher
toxic potency than chlorite. A significant decrease in the heart rate and respiration frequency of larvae was established.
However, within an increase in exposure duration recovery of cardio-respiratory responses was seen to have occurred in larvae
exposed to chlorite. Meanwhile, in larvae exposed to chlorine dioxide, a significant decrease in cardio-respiratory responses
remained during all 20-day chronic bioassays. Chlorine dioxide also more strongly affected growth parameters of rainbow trout
larvae at much lower test concentrations. Decreased rate of yolk-sack resorption occurred only in the tests with chlorine
dioxide.
Conclusions Maximum-Acceptable-Toxicant-Concentration (MATC) of 0.21 mg/l for chlorine dioxide and of 3.3 mg/l for chlorite to fish was
derived from chronic tests based on the most sensitive parameter of rainbow trout larvae (growth rate). According to substance
toxicity classification accepted for Lithuanian inland waters, chlorine dioxide and chlorite can be referred to substances
of \moderate\ toxicity to fish.
Recommendations and Outlook Due to its very reactive nature, chlorine dioxide is rapidly (in a few hours) reduced to chlorite, which is persistent also
as a biocide but 16 times less toxic to fish, according to MATC. Therefore, it is much more likely that fish will be exposed
to chlorite than to chlorine dioxide in natural waters. Presently accepted, the Maximum-Permitted-Concentration of total residual
chlorine (TRC) in waste-water discharging into receiving waters is 0.6 mg/l. If this requirement will not be exceeded, it
is unlikely that fish would be exposed to lethal or even to sublethal concentrations of chlorine dioxide or chlorite. Furthermore,
chlorine dioxide does not generate toxic nitrogenous (chloramines) or carcinogenic organic residuals (trihalomethanes). All
these properties make chlorine dioxide a more promising biocide than chlorine. 相似文献
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通过对松花江水进行大量实验 ,找出TOC的含量、投氯量、温度和 pH值等对氯仿形成的定量关系 ,确定了饮用水氯化的优化条件 ,使饮用水氯化过程中形成的氯仿含量不超过国家饮用水的标准 相似文献
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二氧化氯和氯复合消毒剂对城市污水的消毒效果 总被引:3,自引:0,他引:3
试验研究了二氧化氯和氯复合消毒剂用于经城市污水处理厂处理后的城市污水消毒的效能 ,结果表明 ,二氧化氯和氯复合消毒剂的使用减低了生成的亚氯酸根离子的浓度 ,增加了残余的二氧化氯的浓度 ,粪大肠菌灭活效果良好。 相似文献
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实验研究了二氧化氯投加量、小球藻的初始浓度、pH、有机物和氨氮含量对ClO2杀灭来自于水库水的小球藻的影响,考察了ClO2氧化与混凝工艺结合时去除小球藻的效果并对工艺条件进行优化。结果表明,ClO2在投加量1.1 mg/L下,接触10 min,小球藻的杀灭率为71.93%。小球藻的杀灭率随着ClO2投加量的增大和藻初始浓度的升高而提高,随水中有机物含量的增加而显著降低,氨氮含量对小球藻杀灭的效果影响很小。在酸性条件和碱性条件下,小球藻的杀灭率均随pH升高而急剧下降,而在中性至弱碱性区间内,藻的杀灭率随pH升高而缓慢下降。对于某以小球藻为优势藻的供水水库源水,ClO2氧化与混凝工艺结合,藻的去除率高达98.47%。除藻的最佳工艺条件为:二氧化氯投加量为0.5 mg/L,聚合氯化铝为5 mg/L,二氧化氯与混凝剂同时投加。 相似文献
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结合某木浆厂的实际运行数据,对采用木聚糖酶辅助漂白前后的木浆质量、主要物料消耗量及产生废水的污染物指标进行了详细分析.结果表明,在工艺运行参数不变条件下,使用木聚糖酶辅助漂白能够显著提高生产纸浆质量等级,降低原木、二氧化氯和能源消耗量,减轻漂后废水的污染负荷,对于降低纸浆生产成本,保护水环境具有重要意义. 相似文献
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二氧化氯深度处理垃圾渗滤液研究 总被引:2,自引:0,他引:2
利用二氧化氯对生物处理后的垃圾渗滤液进行深度处理,根据废水中有效氯浓度、COD、氨氮及细菌数等参数的分析,初步探讨了不同浓度的二氧化氯在不同处理时间内对垃圾渗滤液的处理效果。结果表明,对于COD初始浓度为450 mg/L左右的水样,二氧化氯的投加浓度达100 mg/L(有效氯),反应时间在50 min时,处理水样可达到同类废水的国家二级排放标准;对于同样条件下的水样,当加入约25 mg/L的二氧化氯时可以杀灭水样中的大肠杆菌,加入浓度达到90 mg/L的二氧化氯时,可以杀灭水样中几乎所有的细菌。 相似文献