| | | 水箱中水的电化学法处理
| | 农村环境保护论文摘 要:利用研制的农村环境保护论文电极电解水产生强氧化剂,进行杀灭微生物、除铁改善水箱中水质的农村环境保护论文实验。结果表明,水流单程通过处理,杀菌率>99%,电耗≤0.1kWh/m3;除铁率>99%,电耗≤0.08kWh/m3。通过检测水中溶解氧含量的变化确认杀藻效果。循环处理水箱中的水,水中总铁含量从14mg/L降至≤0.3mg/L,细菌总数从104个/mL降至≤30个/mL。用处理后的水冲洗小便池,消除了尿垢。
关键词:水处理;电化学;杀菌;除铁Key words:water treatment;electrochemistry;bacteria killing;iron removal
Electrochemical Treatment of Water in Water Tanks Abstract:Experiments of water treatment for killing mocrobe and removing iron to improve the quality of the water in water tanks were conducted using a strong oxidizing agent produced during electrolysis of water by a self-develped electrode.The results showed that by once - through treatment of water flow,bacteria killing rate was > 99% with electrical power consumption ≤ 0.1 kWh/m3,and iron removal rate was > 99% with electrical power consumption ≤ 0.08 kWh/m3.The algae removal effect was examined by measuring the dissolved oxygen content in the water.With cyclic treatment of water in water tanks,the total iron content in the water dropped from 14 mg/L to ≤ 0.3mg/L,and the total number of bacteria from 104 cfu/mL to ≤30 cfu/mL.When the treated water was used in flushing urinal,urinous scale was eliminated.
随着社会经济的发展和生活水平的提高,城市居民对用水质量的要求日益增高,但工业化生产排放的废水对水源的污染也越来越大。按传统的自来水处理方法,只有增大加氯的剂量。由于水中有机物含量增加,这样做难免会产生“三致”物质。而且,即使投入更多的氯,也难以保证在管道末梢的余氯值大于0.05mg/L,往往发现建筑物的供水管道和屋顶水箱中细菌和藻类滋生的现象。微生物分泌的粘液吸附水中杂质,淤积在管壁上形成粘泥层,增加对水流的阻力;在粘泥覆盖下,管道表面因贫氧形成浓差电池,引起管壁锈蚀,使流出的水发黄带铁腥味。对此,我们在实验的基础上,在建筑物的水箱处增加一级电化学水处理,可以起到杀菌、杀藻、除铁的作用,有效地改善了水质。该方法不需添加化学药剂,无二次污染,可以根据水质调节用电量。
1 杀菌[1][2][3]
1.1 作用机理
根据电解的原理,研制的阳极,以钛板或钛棒为基体,用高温热解氧化法在表面生成含铱等贵金属氧化物的涂层。该电极在电解过程中自身不溶解,催化产生具有极强杀生能力的活性物质,如OH自由基、初生态O、H2O2和O3等活性氧;水中存在的氯离子,被激活成ClO2、HClO、ClO-等活性氯协同杀菌。微生物表面带负电,在电场力的作用下向阳极迁移。电极与水的界面存在的双电层电场强度较高,如微生物被电场吸引或随水流冲进双电层,会因触电致死,用电杀菌具有广谱性的杀菌效果,不会产生耐药性;产生的H2O2和余氯赋予水体持续抑菌的能力。
|
| | |
| | | | <<<<<全文未完>>>>> 全文字数约$$$zishu$$$字 | |
| | |
| |
|
教育论文中心