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111.
随着印染工艺不断更新,大量化学分子结构复杂的化工染料应用到印染行业,使得常规的水处理工艺难以降解印染废水中的染料。本文以活性黑(RB5)染料为研究对象,采用液相高压放电产生强氧化性自由基来降解染料废水,考察反应时间、初始浓度和气体流量对RB5降解的影响,研究结果表明:在外部功率相同的情况下,浓度高染料其降解率相对较低;通入氧气量增加,产生的活性自由基和活性物质数量也增加,RB5的降解率也增大,但气流量不宜过大;高压放电产生的各种活性物质容易破坏染料发色基团的分子链,使其脱色。 相似文献
112.
水中羟基氧化铁催化臭氧分解和氧化痕量硝基苯的机理探讨 总被引:19,自引:12,他引:19
测定了木质颗粒活性炭(GAC)和负载在GAC上的羟基氧化铁(FeOOH)催化水中臭氧分解的速率常数并探讨了催化臭氧分解的途径.以水中几种氧化物表面羟基密度和表面零电荷pH值(pHzpc)为表征氧化物表面性质的参数,考察了2个参数对催化臭氧氧化水中硝基苯的影响.GAC和负载在GAC上的FeOOH使水中臭氧一级分解速率常数分别提高了68%和108%,用叔丁醇捕获掉生成的羟基自由基后,前者的分解速率常数降低了9%,后者降低了20%.GAC在催化臭氧分解时主要起到吸附剂和还原剂的作用,FeOOH催化臭氧分解过程中促进了羟基自由基生成.氧化物表面羟基密度和催化臭氧氧化水中硝基苯的效果之间没有直接的关系,由氧化物的pHzpc决定的表面电荷状态与催化氧化效果有关,表面接近电中性时对催化氧化硝基苯有利.高密度的表面羟基会使表面羟基之间形成较强的氢键,使催化作用减弱. 相似文献
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114.
以内分泌干扰物阿特拉津为模型污染物,研究了TiO2-Fe3+可见光催化H2O2降解阿特拉津的协同效应.结果表明,在H2O2存在条件下,金红石TiO2经可见光激发可持续稳定地产生.OH自由基,在Fe3+协同作用下,.OH自由基生成量急剧增加;TiO2能可见光催化H2O2降解阿特拉津,金红石TiO2显示出较锐钛矿TiO2及混晶TiO2(TiO2P25)更高的催化活性,反应60 min,阿特拉津的降解率可达40%;以Fe3+协同TiO2可见光催化H2O2降解阿特拉津时,反应效率显著加快,反应5 min即对阿特拉津的降解率达到100%,而金红石TiO2显示出更为明显的协同效应. 相似文献
115.
A new phenol-degrading bacterium with high biodegradation activity and high tolerance of phenol, strain PD 12, was isolated from the activated sludge of Tianjin Jizhuangzi Wastewater Treatment Facility in China. This strain was capable of removing 500 mg phenol/L in liquid minimal medium by 99.6% within 9 h and metabolizing phenol at concentrations up to 1100 mg/L. DNA sequencing and homologous analysis of 16S rRNA gene identified PD12 to be an Acinetobacter sp. Polyvinyl alcohol (PVA) was used as a gel matrix to immobilize Acinetobacter sp. strain PDI2 by repeated freezing and thawing. The factors affecting phenol degradation of immobilized cells were investigated, and the results showed that the immobilized cells could tolerate a high phenol level and protected the bacteria against changes in temperature and pH. Storage stability and reusability tests revealed that the phenol degradation functions of immobilized cells were stable after reuse for 50 times or storing at 4℃ for 50 d. These results indicate that immobilized Acinetobacter sp. strain PD 12 possesses a good application potential in the treatment of phenol-containing wastewater. 相似文献
116.
珠江三角洲4种代表性土壤/沉积物中自由态与结合态有机氯农药的含量与分布特征 总被引:3,自引:0,他引:3
有机氯农药在土壤/沉积物中主要以自由态和结合态存在.本研究选取珠江三角洲地区4种代表不同沉积环境的典型土壤/沉积物样品,先采用碱萃取、盐酸/氢氟酸去矿物等方法对样品进行了组分分离,再采用有机溶剂萃取法对不同组分中自由态和结合态有机氯农药进行了系统分析.结果显示,4种土壤/沉积物总有机氯农药含量为20.96~134.22 μg·kg-1,其中HCHs总含量为5.66~22.87 μg·kg-1,DDTs总含量为1.51~11.70 μg·kg-1,β-HCH、七氯、艾氏剂、异狄氏剂、硫丹硫酸盐和甲氧滴滴涕等6种农药为主要成分,占总有机氯农药的53.56%~77.26%.自由态有机氯农药含量为8.46~88.45 μg·kg-1,占总有机氯农药的40.37%~65.90%.结合态有机氯农药含量为11.46~45.77 μg·kg-1,占总有机氯农药的34.10%~59.63%,主要存在于土壤/沉积物的腐殖酸和胡敏素组分,反映了环境中结合态有机氯农药的大量存在.自由态DDT和HCH类有机氯农药的分布情况表明,4种样品均没有新鲜HCH类农药输入而部分样品仍有新鲜DDT类农药输入.结合态有机氯农药在腐殖酸和胡敏素间的分布与有机质碳含量相关,占总有机碳57.71%~80.55%的胡敏素结合了94.78%~97.48%的结合态有机氯农药.风险评价结果表明,部分游离态有机氯农药如γ-HCH、艾氏剂、异狄氏剂、DDT类农药可能存在一定的生态风险.由于单个化合物的总量要比自由态高出约1~30倍,同时结合态农药在一定条件下有释放到环境的可能,因此有机氯农药的环境风险评价和环境标准建立均需考虑结合态有机氯农药. 相似文献
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118.
A novel nanocomposite was synthesized by incorporating three different types of flame-retardants and its extinguishing performance was tested for gaseous fires. The nanocomposite consists of the inorganic magnesium hydroxide (MH) nanoparticles as the dominant component, the nitrogen-based melamine cyanurate (MCA), and the phosphorus-based ODOPB. The wet mixing, dry mixing, and ultrasonic agitation were employed in the preparation process to enhance the homogeneity of the nanocomposite. The prepared powders were characterized using a series of analytical instruments including X-ray diffraction (XRD), scanning electron microscopy (SEM), thermal gravity analyzer (TGA), and differential scanning calorimeter (DSC). The efficiency of various samples in extinguishing gaseous fires was investigated in a lab-scale extinguishing system. The fire extinguishing tests indicated that the nanocomposite is considerably more effective in fire extinguishing than other powders in terms of extinction time and agent mass consumed. The fire extinction time of nanocomposite was 45.2% shorter than that of commercial ABC-MAP powder. Furthermore, the consumed amount of nanocomposite was 63.2% less than that of commercial powder. In addition, the order of extinguishing mass concentrations was as follows: the novel nanocomposite (103.7 g/m3) < MH/MCA (148.1 g/m3) < MH/ODOPB (155.6 g/m3) < MH (170.4 g/m3) < commercial ABC powder (281.5 g/m3) < MCA/ODOPB (384.1 g/m3). The fire suppression mechanisms of the nanocomposite were also discussed. It was inferred that the extinguishing mechanism of nanocomposite comprised of simultaneous chemical and physical inhibition actions involving chemical inhibition action, cooling action, and asphyxiation action. This study provides a promising attempt to gain benefits from the striking features of nanotechnology and flame-retardants in extinguishing gaseous fires. 相似文献
119.
120.
Pi Yunzheng Wang Jianlong 《Frontiers of Environmental Science & Engineering in China》2007,1(2):179-183
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] 相似文献