The impact of UV treatment on microbial control and DBPs formation in full-scale drinking water systems in northern China

To manage potential microbial risks and meet increasingly strict drinking water health standards,UV treatment has attracted increasing attention for use in drinking water systems in China.However,the effects of UV treatment on microbial control and disinfection byproducts(DBPs)formation in real municipal drinking water systems are poorly understood.Here,we collected water samples from three real drinking water systems in Beijing and Tianjin to investigate the impacts of UV treatment on microbial control and DBP formation.We employed heterotrophic plate count(HPC),flow cytometry(FCM),quantitative PCR analysis,and high-throughput sequencing to measure microorganisms in the samples.Different trends were observed between HPC and total cell count(measured by FCM),indicating that a single indicator could not reflect the real degree of biological re-growth in drinking water distribution systems(DWDSs).A significant increase in the 16S rRNA gene concentration was observed when the UV system was stopped.Besides,the bacterial community composition was similar at the phylum level but differed markedly at the genera level among the three DWDSs.Some chlorine-resistant bacteria,including potential pathogens(e.g.,Acinetobacter)showed a high relative abundance when the UV system was turned off.It can be concluded that UV treatment can mitigate microbial re-growth to some extent.Finally,UV treatment had a limited influence on the formation of DBPs,including trihalomethanes,haloacetic acids,and nitrogenated DBPs.The findings of this study may help to understand the performance of UV treatment in real drinking water systems.

Disinfection of Primary Municipal Wastewater Effluents Using Continuous UV and Ozone Treatment

UV radiation and ozonation were investigated as disinfection alternatives for the wastewater treatment plant. The inactivation of total and fecal coliforms using ozone and ultraviolet radiation as separate treatments was evaluated. Different ozone concentrations (3 to 40 mg O3/L) were applied and UV fluencies ranging from 8.5 to 12 mJ/cm2 at different pH values (from 5 to 9) were tested. Best results were obtained for ozone doses near 20 mg/min with removals of 72% and 78% of fecal and total coliforms, respectively. The ozone also was capable of oxidizing organic matter in the effluent measured as COD (the highest removal obtained was 36% for 20 mg O3/min). Maximum bacterial resistance was observed at pH 7 in both cases. The UV light offered a high bacterial inactivation (over 80%) and the lowest bacterial inactivation was observed at pH 7. Finally, we obtained the electric energy per order (EEO, kWh/m3/order), defined as the electric energy (kW-h) required to degrade a contaminant by one order of magnitude in a unit volume of contaminated water, being noteworthy that EEO values for the UV process resulted were lower than those determined for the process with ozone in all the water flow tested.

Degradation of 1,4-Dioxane Using Ozone Oxidation with UV Irradiation （Ozone/UV） Treatment

A method for oxidative degradation of 1,4-dioxane （1,4-D） in waste water using a combination of ozone oxidation with UV irradiation （ozone/UV） treatment was investigated. The results showed that 1,4-D was degraded by ozone/UV treatment up to 90 min. The optimum concentration for the injected ozone gas was about 40 g·m^3 under a constant level of UV irradiation. Furthermore, solid phase extraction and GC-MS analysis showed no specific or reproducible peaks due to by-products of 1,4-D. It was therefore concluded that 1,4-D was completely degraded by ozone/UV treatment. In contrast, the amount of 1,4-D remaining decreased slowly in the presence of HCOf or CI. It was suggested that the degradation of 1,4-D, which results from .OH oxidation, was retarded by the presence of HCO3 or CI, which act as radical scavengers.

Degradation of Diclofenac in Molecularly Imprinted Polymer Submicron Particles by UV Light Irradiation and HCl Acid Treatment

A new molecularly imprinted polymer (MIP) was synthesized by precipitation polymerization using diclofenac (DFC) as a template. Binding characteristics of the MIP particles were evaluated by equilibrium binding experiments. DFC-MIP aqueous suspension and non-imprinted polymer (NIP) suspension were exposed to monochromatic UV light (253.7 nm) from low-pressure mercury lamps. UV-visible spectrophotometry (especially absorbance at 276 nm) showed that the DFC inside MIP particles degraded completely. After DFC-MIP suspension exposure to UV light the particles were completely regenerated after washing with water at least six times. The regenerated MIP particles rebounded considerable amount of DFC (approximately 88% removal of 44 ppm DFC). The stability of DFC was examined in the presence of various concentrations of hydrochloric acid (0.025 to 125 mM). Experimental results showed that degradation of DFC was efficient, depending on the acid concentration as well as the treatment time. However, there was no re-binding of DFC by the MIP particles after HCl treatment (and DDW washing) when exposed to DFC for 24 hours.

UV处理对改善Kevlar纤维粘结性的影响

采用 UV处理 Kevlar纤维以改善它与树脂基体间的界面粘结性能 ,研究了处理时间及光敏剂对处理效果的影响。同时 ,通过 XPS和 SEM技术研究 Kevlar纤维表面化学组成和表面结构的变化 ,通过纤维断裂拉伸实验研究 UV处理对纤维抗拉强度的影响。结果表明 :UV处理对纤维的损伤较小 ,但表面极性基团增加 ,比表面积增大 ,从而提高了Kevlar纤维 /U P树脂的界面粘结强度。通过 UV处理 ,材料的拉剪强度可提高 16 .5 %。

UV/氯联合处理含溴溶液中溴酸根的生成

研究了UV和氯联合作用下溴酸根离子（BrO3^-）在低浓度含溴溶液中的生成,旨在探讨pH、次氯酸钠（NaOCl）浓度、溶解氧（DO）、光强和温度等因素对其生成的影响.研究表明,暗反应条件下H2O-NaOCl-Br-体系较稳定,而UV照射可使游离氯浓度持续降低,同时伴有部分Br-（6.6%～32%）被氧化成BrO3-离子;pH、温度和光强恒定时余氯的分解可用拟一级反应速率方程拟合;实验条件下（I为610～1 896μW/cm2,T为12.2～36.1℃）,拟一级反应速率常数分别与体系温度和光强值有线性关系;BrO3-的生成大致可以分为快速、慢速和平缓3个阶段;在慢速生成阶段,BrO3-的生成量与余氯的分解量有良好的线性关系（绝大部分相关系数在0.96以上）;实验范围内（pH为4.41～11.07,DO为1.5～9 mg/L,Cl2为1.23～4.50 mg/L）,低pH、低DO和高初始NaOCl（以氯计）浓度有利于溴酸根的生成,提高温度与光强均不同程度提高溴酸根生成速度,但同时因加速余氯的分解而减少了溴酸根的总生成时间.

UV-Fenton试剂处理焦化废水的研究

采用UV-Fenton试剂对实际焦化废水进行氧化处理,通过正交试验和单因素试验,探讨了H2O2浓度、FeSO4浓度、反应时间及溶液pH对水样COD及挥发酚去除的影响;在综合考虑经济性和去除效果的前提下,提出反应的最佳条件:FeSO4为0.2g·100mL-1、H2O2为0.59g·100mL-1、反应时间75min、溶液pH为6;试验结果表明,焦化废水经过UV-Fenton氧化处理后,COD去除率能达到86%以上,挥发酚基本能被完全去除。

船舶压载水UV处理装置的设计与仿真

针对船舶压载水排放要求,结合当前船舶压载水处理技术,采用紫外技术设计处理量为200 m3/h的压载水装置.基于紫外线的工作原理,设计了新型UV压载水处理装置,其中包括灯管的选择、腔体结构的设计和紫外线辐照强度、剂量的计算等.采用Fluent软件分别对新型与原型UV装置内的流场分布、流体过流时间进行数值模拟;分别采用Fluent和Matlab软件对装置内的紫外辐照强度和辐照剂量进行仿真模拟,并将模拟结果进行对比分析.模拟结果显示,新型UV装置内的流体过流时间与辐射剂量较原型装置均有所增加;与Fluent软件相比较,Matlab软件能够精确计算装置内各点的UV强度与剂量,且模拟过程更加简便,对UV装置展开深入的研究提供了一种定量分析的新方法.

UV/H_2O_2系统协同降解苯酚的动力学研究

紫外光/双氧水(UV/H2O2)复合氧化过程在废水处理领域有很广泛的应用前景,但动力学方面的研究较少,为此研究了UV/H2O2工艺降解苯酚废水的动力学。结果表明,苯酚在单独的紫外辐射(UV)、过氧化氢(H2O2)氧化和UV/H2O2协同下的降解均符合表观一级反应动力学。在单独的紫外辐射或过氧化氢氧化下苯酚去除速率很小, 而在复合氧化过程UV/H2O2工艺中有显著的提高,表明存在协同效应。苯酚去除的速率常数增强因子可达7.35。进一步从 UV/H2O2系统中存在的UV、H2O2和羟基自由基(OH)三部分协同作用的降解机理,推导出了简化的机理动力学模型,能很好地反映过氧化氢浓度过量条件下苯酚的降解。苯酚降解的动力学方程为: 5-55322022002.1410[HO]d[R]5.3310[R]2.0410[HO][R][R]d[R]rt---=-=+?

UV/Fenton氧化与生化组合技术处理磺化泥浆体系钻井废水

采用UV/Fenton氧化和生化组合技术处理磺化泥浆体系钻井废水。当用UV/Fenton氧化单独处理时,其合适的条件为n(H2O2):n(Fe2+)=40:1,pH为3～5。采用B/C和生化呼吸曲线两种方法评价了UV/Fenton氧化后水样的可生化性,结果表明钻井废水经氧化后可生化性大幅提高。采用UV/Fenton氧化和生化组合技术处理钻井废水,在预氧化阶段投加0.6Qth mg·L-1(理论投加量)和1.0Qth mg·L-1双氧水时,COD总去除率分别为82.5%和87.3%,出水可达国家一级排放标准。组合技术和单独氧化法相比,既提高了处理效率,又大大节省了双氧水的投加量。

UV-C复合热处理或1-MCP处理对西兰花保鲜效果的研究

以采后西兰花为试材,研究UV-C与热处理、1-MCP单独或复合处理对西兰花采后冷藏及货架期间品质的影响。结果表明,在冷藏(0℃)前,采用UV-C照射与热处理、1-MCP单独或复合处理,对西兰花在冷藏65 d和货架5 d期间的感官品质和营养成分均具有较好的保鲜效果。其中以0.25μL/L的1-MCP熏蒸20 h及复合UV-C照射600 s对西兰花的护绿、抑制花蕾开放以及保持VC和叶绿素含量的效果显著好于其他处理,感官品质评价总分较高;45℃热水处理5 min及复合UV-C照射处理对控制西兰花腐烂率的效果较好。

造纸废水生化处理出水UV/TiO_2深度处理研究

采用GC—MS和紫外—可见光分析技术研究了造纸废水生化处理出水的特点,考察了UV/TiO2法对该废水深度处理的效果。结果表明,造纸生化处理出水中有机组分复杂,以酯类、酚类、酮类、芳香族化合物和直链烷烃有机物等为主,含有烯键、羰基、羧基、酰胺基和-Cl等生色基团和助色基团,这些基团的相互作用使造纸生化处理出水的色度较高。UV/TiO2法处理造纸生化出水时,采用工艺参数为：pH7~9,TiO2用量2 g/L,紫外光强度300 W,反应时间为90 min,色度的脱除可达96%,化学需氧量（CODcr）去除率也能达到75.9%,UV254降至0.14,达到了深度处理的目的。

压载水UV处理装置优化设计及实验研究

IMO制定的压载水处理D2标准已对颗粒物和细菌及微生物的数量等做了明确的规定,利用紫外线杀菌具有高效、洁净、方便的特点。提出了对原有的UV处理装置内增加了进出口导流板和筒体内平面导流板,它改善了UV处理装置内的流场分布和辐照剂量的均匀性。模拟结果显示,优化后的装置在紫外灯管数量及功率未增加情况下,节约了处理时的能耗,达到了理想的杀菌效果。

UV-C处理对贡橘冷害的影响

为探讨UV-C处理对贡橘冷害的影响,以贡橘为试材,在贮前分别用0、1、3、5 KJ·m^(-2)UV-C辐射处理,研究在1℃贮藏时,果实冷害指数、失重率、果皮细胞膜透性、MDA、POD、SOD等指标的变化。结果表明,3 KJ·m^(-2)的UV-C处理能有效延迟贡橘果实的冷害发生时间,并能减轻冷害症状,降低果实失重率,降低细胞膜透性,抑制MDA的积累,提高果实POD、SOD活性。由此可见,适当剂量的UV-C处理能提高贡橘对低温的适应性,降低冷害的发生,延长果实贮藏期,减少经济损失。本研究结果为减缓柑橘类果实冷害提供了理论依据。

城市污水生化处理水UV/O_3法深度处理效果及影响因素研究

研究城市污水生化处理水的深度处理技术及其影响因素,对于减轻环境污染和实现废水回用具有重要理论意义和实用价值.考察了UV/O3法对城市污水生化处理水深度处理的效果及其影响因素.结果表明,由于UV/O3过程具有氧化能力强,反应无选择性等优点,使其在城市污水生化处理水深度处理方面较普通O3氧化更具有优势,50 min时CODCr去除率达到90%以上,达到了深度处理的目的.对于难氧化有机物,UV/O3法处理时几乎大部分都被氧化分解残留量很少,而O3法处理时仍有较多难氧化有机物残留.UV/O3法处理城市污水生化处理水时,在pH=6～9时,CODCr去除率随pH的升高而降低,表明较低pH(pH=5)有利CODCr的去除.有机污泥对CODCr去除率基本没有影响,但无机悬浮物SiO2对CODCr去除率影响较大,投加70 mg/L的SiO2后CODCr氧化速率和去除率有较明显下降.随溶液碱度的增加,CODCr的去除率下降,碱度越高对CODCr去除的影响也越明显.

UV/H_2O_2工艺在水处理中的应用研究进展

高级氧化技术利用产生的羟基自由基这一强氧化剂处理难降解废水,成为近年来研究的热点。UV/H2O2工艺用于去除水中有毒有害有机污染物质,由于氧化能力强,无选择性,无二次污染,处理效果好,受到广泛的关注。介绍了近5年该工艺在处理饮用水和工业废水中污染物质方面的的研究进展,同时也提出了存在的一些问题,便于今后研究和应用中进一步改进和完善。

增强UV-B辐射与CO_2浓度倍增复合作用对冬季大棚黄瓜生长发育的影响

研究了不同剂量的紫外 - B辐射与浓度倍增的 CO2 复合处理对大棚黄瓜 Cucumis sativus 生长发育过程中植株形态、叶绿素、可溶性蛋白质含量以及 SOD、POD、CAT酶活性的影响 .结果表明 :在形态方面 ,U V- B辐射明显降低了植株的株高、叶柄长度、叶面积 ,而茎粗增加 .复合处理 B2 C明显提高了黄瓜叶绿素的含量 ,整个处理对黄瓜蛋白质的含量没有大的影响 ;酶活性以 B2 C处理时 ,其 SOD、POD、CAT酶活性最高 .说明一定低剂量的 U V- B与 CO2 相复合时 ,可以促进黄瓜的生长发育 ,其促进程度大于 CO2 单因子的效应 .

O_3、H_2O_2/O_3及UV/O_3在焦化废水深度处理中的应用

采用O3、H2O2/O3和UV/O3等高级氧化技术(AOPs)对某焦化公司的生化出水进行深度处理,考察了O3与废水的接触时间、溶液pH、反应温度等因素对废水COD去除率的影响,确定出O3氧化反应的最佳工艺参数为:接触时间40 min,溶液pH8.5,反应温度25℃,此条件下废水COD及UV254的去除率最高可达47.14%和73.47%;H2O2/O3及UV/O3两种组合工艺对焦化废水COD及UV254的去除率均有一定程度的提高,但H2O2/O3系统的运行效果取决于H2O2的投加量。研究结论表明,单纯采用COD作为评价指标,并不能准确反映出O3系列AOPs对焦化废水中有机污染物的降解作用。

UV/Fenton法处理硝基苯废水的试验研究

以自配硝基苯水样为处理对象,采用自制光反应器,用还原-偶氮光度法测定出水中硝基苯的含量,再计算出硝基苯的去除率,然后比较分析各反应的去除效果。研究表明,UV/Fenton法有较高的去除率和反应速率,反应时间、投加量和硝基苯浓度三因素影响最大。试验确定了最佳反应条件:倍数应在1.5左右;Fe2+与H2O2的摩尔比为1∶30;pH值宜选在4左右;硝基苯的质量浓度不宜大于200mg/L;载气在该反应中的作用不大;反应时间为50 min。在最佳反应条件下,去除率可达到95%。