共查询到17条相似文献,搜索用时 62 毫秒
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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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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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采用二氧化氯(ClO2)作为二次供水的消毒剂进行静态实验研究,考察了ClO2投加量、氨氮与CODMn浓度及pH对ClO2衰减及消毒副产物氯酸盐(ClO3^-)和亚氯酸盐(ClO2)的生成影响,并建立了ClO3-和ClO2生成浓度的经验预测模型。结果表明:前4h内,随着消毒剂初始投加浓度提高,ClO2的衰减速率增加,4h后降解则较缓慢。ClO2加入水中,立即有ClO3^-与ClO2^-生成,4h后基本达到稳定,且随着药剂投加量的增加,ClO3^-和ClO2-的生成量逐渐增大。氨氮、CODMn及pH的升高,可加速ClO2的衰减,同时可促进ClO3^-和ClO2-的生成。其中,氨氮浓度从0.085mg/L升高到0.585mg/LClO3^-与ClO2-的生成浓度分别增加了6.49μg/L和8.32μg/L;CODMn从1.13mg/L升高到3.13mg/L,ClO3^-与ClO2-的生成浓度分别增加了13.75μg/L和9.23μg/L;pH从6.49升高到8.45,ClO3^-与ClO2-的生成浓度分别增加了13.28μg/L和10.01μg/L。 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:2,自引:0,他引:2
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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二氧化氯销毁氰化物的应用研究 总被引:1,自引:0,他引:1
在弱碱性条件下,二氧化氯消毒剂将氰化物氧化成无毒的氰酸盐(OCN)、二氧化碳和氮气。研究了影响二氧化氯销毁氰化物的几种因素:pH在8—11的范围内,不影响二氧化氯对氰化物的销毁率;在所试验的反应温度(0-40℃)内,温度对反应速率表现出有限的影响;二氧化氯与氰离子的最佳质量比为2:1;当氰离子最高使用浓度小于0.5g/L时,废水中氰离子浓度达一级以上的排放标准。 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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Tao Wang Jinhui Wu Limei Hao Ying Yi Song Lin 《Journal of the Air & Waste Management Association (1995)》2016,66(5):508-517
Bacillus subtilis subsp. niger spores are a commonly used biological indicator to evaluate the disinfection of an enclosed space. In the present study, chlorine dioxide (ClO2) gas was applied to inactivate B. subtilis subsp. niger spores in an enclosed space. The effects of the ClO2 gas concentration (1-3 mg/l), relative humidity (RH, 30-70%) and exposure time (30-90 min) were investigated using a response surface methodology (RSM). A three-factor Box-Behnken experimental design was used. The obtained data were adequately fitted to a second-order polynomial model with an R2adj of 0.992. The ClO2 gas concentration, RH and exposure time all significantly (P<0.05) and positively correlated with the inactivation of B. subtilis subsp. niger spores. The interaction between the ClO2 gas concentration and RH as well as that between the exposure time and RH indicated significant and synergistic effects (P<0.05). The predictive model was validated by additional eight experiments and proven to be with good accuracy. Overall, this model established by the RSM could show the trend of the inactivation of spores, indicate the interactions between important factors, and provide a reference to determine effective conditions for the disinfection in different enclosed spaces by ClO2 gas.
Implications: The inactivation of indoor biological contaminants plays an important role in preventing the transmission of pathogens and ensuring human safety. The predictive model using response surface methodology indicates the influence and interaction of the main factors on the inactivation of Bacillus subtilis subsp. niger spores by ClO2 gas, and can predict a ClO2 gas treatment condition to achieve an effective sterilization of enclosed spaces. The results in this paper will provide a reference for the application of ClO2 gas treatments for indoor disinfection. 相似文献
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在有助剂焦磷酸钠存在时进行了用二氧化氯处理含铁氰化物废水的研究。实验结果表明 ,在废水pH值为5— 9,焦磷酸钠∶铁氰化物 (摩尔比 ) =1.2∶1,处理时间为 6 0min ,二氧化氯加入量大于理论量 2 0 %的工艺条件下 ,处理后水中总氰化物含量在 0 .5mg/L以下。 相似文献
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E M Aieta J D Berg P V Roberts R C Cooper 《Journal - Water Pollution Control Federation》1980,52(4):810-824
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研究了二氧化氯化学氧化体系和二氧化氯催化氧化体系。实验结果表明 :单用二氧化氯化学氧化处理COD为 35 0 0mg/L的酸性大红染料配制废水时 ,最佳反应pH值为 6— 8,氧化剂经济用量为 10 0 0mgClO2 /L废水 ,反应时间为 6 0min ,COD去除率可达 5 0 %左右 ,氧化指数 (COD削减量∶ClO2 投加量 ) =2 .3。当二氧化氯与自制催化剂所组成的催化氧化体系用于对酸性大红染料配制废水的处理时 ,最佳反应pH值为 2左右 ,氧化剂经济用量为 80 0mgClO2 /L废水 ,反应时间为4 5— 6 0min ,COD去除率可达 80 %以上 ,氧化指数 =3.5 ,去除每kgCOD氧化剂费用为 3.7元人民币 ,并且废水的可生化性有很大的提高 ,效果明显优于二氧化氯化学氧化。经济技术评估表明 ,二氧化氯催化氧化法是一种新型高效的处理难降解废水的技术 ,有着广阔的应用前景 相似文献
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Peiyong Ning Dan Shan Enlv Hong Lumin Liu Yun Zhu Runmeng Cui 《Journal of the Air & Waste Management Association (1995)》2020,70(7):721-728
ABSTRACT
Gaseous chlorine dioxide (ClO2) is one of the most promising air disinfectants. In this study, an ultra-low concentration of ClO2 gas (< 1.2 mg/m3) was generated in an office at various levels of humidity and illuminance to investigate the decay law. The disinfection efficiency and metal corrosiveness of ultra-low concentrations of ClO2 gas were also studied using an experimental chamber. At 48% and 75% humidity, the decay rate constants of ClO2 gas were 0.0034 min?1 and 0.0036 min?1, respectively. The rate of decline of the ClO2 concentration increased as the humidity of the environment increased. The decay rate constant of ClO2 gas at an illuminance of 76 lux and 3429 lux was 0.0034 min?1 and 0.00427 min?1, respectively; hence, the decay rate increased with increased illumination. At a humidity of 72% and illuminance of 2112 lux, the decay rate constant reached 0.00880 min?1. The effects of humidity and illuminance on the attenuation of the ClO2 concentration were strongly synergistic. When the gas concentration was maintained below 0.9 mg/m3, the disinfection rate of ClO2 on bacteria (P. aeruginosa, V. mimicus and S. aureus) exceeded 99.9%; thus, ClO2 gas exhibited a high disinfection efficiency. In addition, there was no corrosion to various metals by ClO2 under the same conditions. Consequently, gaseous ClO2 at ultra-low concentrations has a high sterilization efficiency and is non-corrosive to metals. 相似文献