Pathway of the ozonation of 2,4,6-trichlorophenol in aqueous solution

The reaction mechanism and pathway of the ozonation of 2,4,6-trichlorophenol (2,4,6-TCP) in aqueous solution were investigated. The removal efficiency and the variation of H₂O₂, Cl⁻ formic acid, and oxalic acid were studied during the semi-batch ozonation experiments (continuous for ozone gas supply, fixed volume of water sample). The results showed that when there was no scavenger, the removal efficiency of 0.1 mmol/L 2,4,6-TCP could reach 99% within 6 min by adding 24 mg/L ozone. The reaction of molecular ozone with 2,4,6-TCP resulted in the formation of H₂O₂. The maximal concentration of H₂O₂ detected during the ozonation could reach 22.5% of the original concentration of 2,4,6-TCP. The reaction of ozone with H₂O₂ resulted in the generation of a lot of OH• radicals. Therefore, 2,4,6-TCP was degraded to formic acid and oxalic acid by ozone and OH• radicals together. With the inhibition of OH• radicals, ozone molecule firstly degraded 2,4,6-TCP to form chlorinated quinone, which was subsequently oxidized to formic acid and oxalic acid. Two reaction pathways of the degradation of 2,4,6-TCP by ozone and O₃/OH• were proposed in this study. Translated from Acta Scientiae Circumstantiae, 2005, 25(12): 1619–1623 [译自: 环境科学学报]     

Formation control of bromate and trihalomethanes during ozonation of bromide-containing water with chemical addition: Hydrogen peroxide or ammonia?

To ensure the safety of drinking water, ozone (O₃) has been extensively applied in drinking water treatment plants to further remove natural organic matter (NOM). However, the surface water and groundwater near the coastal areas often contain high concentrations of bromide ion (Br^?). Considering the risk of bromate (BrO₃^?) formation in ozonation of the sand-filtered water, the inhibitory efficiencies of hydrogen peroxide (H₂O₂) and ammonia (NH₃) on BrO₃^? formation during ozonation process were compared. The addition of H₂O₂ effectively inhibited BrO₃^? formation at an initial Br^? concentration amended to 350 µg/L. The inhibition efficiencies reached 59.6 and 100% when the mass ratio of H₂O₂/O₃ was 0.25 and > 0.5, respectively. The UV₂₅₄ and total organic carbon (TOC) also decreased after adding H₂O₂, while the formation potential of trihalomethanes (THMsFP) increased especially in subsequent chlorination process at a low dose of H₂O₂. To control the formation of both BrO₃^? and THMs, a relatively large dose of O₃ and a high ratio of H₂O₂/O₃were generally needed. NH₃ addition inhibited BrO₃^? formation when the background ammonia nitrogen (NH₃N) concentration was low. There was no significant correlation between BrO₃^? inhibition efficiency and NH₃ dose, and a small amount of NH₃N (0.2 mg/L) could obviously inhibit BrO₃^? formation. The oxidation of NOM seemed unaffected by NH₃ addition, and the structure of NOM reflected by synchronous fluorescence (SF) scanning remained almost unchanged before and after adding NH₃. Considering the formation of BrO₃^? and THMs, the optimal dose of NH₃ was suggested to be 0.5 mg/L.     

品红的深度氧化机理研究

选用 2 5 3 7nm的紫外光为激发光源 ,对品红 /过氧化氢体系中的紫外光解离进行了研究 .结果表明 ,该体系中品红的解离近似为表观一级反应 ,解离反应的速率常数为 0 0 386 7s- 1.品红水溶液的脉冲瞬态光谱结果表明 ,品红主要与OH自由基反应而导致脱色 ,其在 5 4 0nm处的脱色与 34 0nm处的瞬态吸收存在很好的相关性 ,品红在5 4 0nm处脱色为一级反应 ,速率常数为 8 1 0× 1 0 5s- 1,34 0nm处新的瞬态物种生成较快而衰减较慢 ,其衰减速率为 5 33× 1 0 3 s- 1.     

粉煤灰-H2O2催化氧化水中对氨基苯酚的试验研究

研究了利用电厂粉煤灰作为非均相催化剂,催化H2O2氧化对氨基苯酚(PAP),讨论了各种因素对PAP去除率的影响.结果表明,在30℃,pH=1.5,H2O2和PAP的起始浓度分别为0.50 mol/L和0.10 mol/L,反应时间为100min,粉煤灰用量为6.0%,搅拌速度为1000r/min的条件下,粉煤灰具有良好的催化活性,能有效地催化H2O2氧化PAP,PAP的去除率可达81%左右.该法可用于预处理含PAP的工业废水.     

甲醛光催化降解与过氧化氢生成的相关性研究

分别采用两种光催化剂(TiO2与Pd/TiO2)和三种紫外光源(黑光灯、杀菌灯、臭氧灯)分解水溶液中的甲醛,同时以酶法测定光催化降解过程中生成的低浓度过氧化氢.发现波长较短的紫外光源生成过氧化氢的浓度较高.当以臭氧灯为光源时,无论是否有催化剂存在,生成的过氧化氢浓度都在50mmol·m-3以上,因为185nm以下的紫外光可以直接由水与溶解氧生成臭氧,而后生成过氧化氢.不管有无催化剂存在,在臭氧灯作用下,甲醛溶液中生成的过氧化氢浓度高于纯水中生成的过氧化氢浓度.但是,在以黑光灯或臭氧灯为光源时,上述结果正好相反.此外,对于每种光源而言,当采用Pd/TiO2代替TiO2时,甲醛的分解和过氧化氢的生成都得到加强.甲醛光催化分解速率与相同条件下纯水中过氧化氢的生成速率呈正比,表明光催化降解的活性与光催化生成过氧化氢的能力近似呈正相关.     

超声波/H2O2/CuO协同氧化降解苯酚

以CuO为催化剂,利用超声波(US)、H2O2及US/H2O2降解苯酚模拟废水,考察了多种因素的影响,并对其降解动力学进行了分析.结果表明,CuO催化作用明显;H2O2投加量的增加对降解反应先促进后抑制;溶液pH值先升高后降低,当溶液初始pH值为5.50时,苯酚的降解效果最好.在溶液初始pH值为5.50,CuO加入量为1mg/mL,H2O2投加量为40mmol/L时,US/H2O2/CuO降解苯酚的速率常数(k)为3.04(10-2min-1,明显大于US、US/H2O2、H2O2/CuO处理下的k值(5.25(10-4,2.31(10-3,2.31(10-2min-1),降解过程均符合表观一级反应动力学.     

Ozonation of refractory chemicals in leachate with hydrogen peroxide

Nearly 97% of organic chemicals in Hong Kong leachate could be effectively removed by the UASB( upflow anaerobic sludge blanket) process followed by the fenton coagulation. The COD of leachate was lowered from an average of 12900 mg/L to 1440 mg/L after the UASB treatment, and was further lowered to 394 mg/L after the fenton coagulation. The remaining refractory residues could be further removed by ozonation with the addition of H2Oz. The ozonation for the supernatant of the fenton coagulation was most effective at pH 7-8, with the addition of 300 mg/L of H202, and 30 min of reaction. The final effluent contained only 85 mg/L of COD and 10 mg/L of BOD5. On the other hand, direct ozonation of UASB effluent lowered the COD to 905 mg/L and BOD5 to 103 mg/L. Ozonation improved the biodegradability of the organic residues, and also converted oart of oruanic-N in the leachate into NH3-N and NO3^- -N.     

紫外高级氧化工艺降解水溶液中的人工甜味剂

人工甜味剂（ASs）作为一类新兴污染物在世界范围内的各种水体中被广泛检出,本文选取具有代表性的糖精（SAC）作为研究对象,探讨了紫外/过氧化氢（UV/H₂O₂）和UV/过硫酸盐（PS）两种高级氧化工艺（AOPs）降解SAC的动力学、影响因素、矿化率、转化产物和降解机制.结果表明：单独的UV、PS和H₂O₂对SAC的去除效果有限（去除率<5%）,UV/H₂O₂和UV/PS工艺对SAC的去除效果良好（去除率>99%）且降解符合伪一阶动力学,速率分别为0.38 min^-1和0.09 min^-1.降低溶液pH值、增大PS浓度均可促进SAC降解;但随着H₂O₂浓度的升高,SAC降解效率先增加后减小.相比UV/PS工艺,UV/H₂O₂工艺降解SAC的矿化率更高（可达43%）.产物鉴定结果表明,两种UV-AOPs氧化降解SAC均会生成开环产物,表明反应会破坏SAC分子中的N—S结构.此外,UV/H₂O₂工艺更易生成羟基化产物,二聚体产物仅在UV/PS工艺中被检测到.     

过氧化氢除藻及相关环境条件优化

采用室内培养的方式,通过正交试验研究了H_2O_2质量浓度、光照、pH值和温度4个因素复合作用对铜绿微囊藻去除的影响。结果表明,在所设置的各因素梯度范围内,对去除铜绿微囊藻影响最大的因素是H_2O_2质量浓度;光照和pH值对藻细胞数和叶绿素a的去除,以及H_2O_2残留量的影响各不相同;温度对藻细胞数的影响最小,对H_2O_2残留量的影响较小,对叶绿素a质量浓度的影响较大。除藻的最佳组合为A_1B_2C_3D_2,即光照为1 500 lx,H_2O_2质量浓度为50mg/L,pH值为8.5,温度为25℃。     

有机溶剂对过氧化环己酮热危险性的减敏效果评价

在纯过氧化环己酮(CYHPO)储运中常添加减敏剂,以降低其热危险性。为了对比评价减敏性能,采用绝热加速量热仪测试了纯CYHPO及加入等质量邻苯二甲酸二丁酯(DBP)、邻苯二甲酸二辛酯(DOP)、正己酸(HAA)和环己醇(CCH)后的热危险参数,并计算了上述5种样品的反应动力学常数和绝热校正数据,建立了包括初始放热温度T0和绝热反应加速度SARC的减敏效果判据,对4种减敏剂的热危险性减敏效果进行了评价。结果表明,DOP对CYHPO热危险性的减敏效果最好。