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91.
Pretreatment of heterocyclic pesticide wastewater using ultrasonic/ozone
combined process 总被引:1,自引:0,他引:1
Ultrasonic/O3 combined process was employed to pretreat heterocyclic pesticide wastewater for increasing biodegradability and
reducing biological toxicity. Influences of ultrasonic frequency, ultrasonic power, probe diameter, initial pH and O3 dosage on the COD
removal were studied. The results showed that the ultrasonic/O3 process significantly improved the biodegradability and reduced the
biological toxicity of the wastewater. The ratio of BOD5/COD was increased from 0.03 to 0.55 and the EC50 increased from 11% to 52%
under ultrasonic/O3 treatment. Low ultrasonic frequency brought better COD removal. Initial pH was found to have a high influence
on the COD removal and alkaline conditions were more favorable. The influences of ultrasonic power and probe diameter were small.
With an increase in O3 dosage, COD removal was e ectively improved. The optimal operational parameters for the combined process
on COD removal were ultrasonic frequency 20 kHz, initial pH 9.00, ultrasonic power 300Wand dosage of O3 454.8 mg/(L min), under
which the e ciency of COD removal reached 67.2%. 相似文献
92.
To investigate the effect of ultrasonic pretreatment on anaerobic digestion and sludge dewaterability and further to probe into the
influencing factors on sludge dewaterability, sludge flocs were stratified into four fractions: (1) slime; (2) loosely bound extracellular
polymeric substances (LB-EPS); (3) tightly bound EPS (TB-EPS); and (4) EPS-free pellets. The results showed that ultrasonic
pretreatment increased the anaerobic digestion efficiency by 7%–8%. Anaerobic digestion without ultrasonic pretreatment deteriorated
the sludge dewaterability, with the capillary suction time (CST) increased from 1.42 to 47.3 (sec L)/g-TSS. The application of ultrasonic
pretreatment firstly deteriorated the sludge dewaterability (normalized CST increased to 44.4 (sec L)/g-TSS), while subsequent
anaerobic digestion offset this effect and ultimately decreased the normalized CST to 23.2 (sec L)/g-TSS. The dewaterability of
unsonicated sludge correlated with protein (p = 0.003) and polysaccharide (p = 0.004) concentrations in the slime fraction, while
that of sonicated sludge correlated with protein concentrations in the slime and LB-EPS fractions (p < 0.05). Fluorescent excitationemission
matrix analysis showed that the fluorescence matters in the LB-EPS fraction significantly correlated with sludge dewaterability
during anarobic digestion. 相似文献
93.
重点介绍了以四氯化碳为萃取剂,利用超声波清洗仪萃取土壤中的油类物质,红外分光光度法测定土壤中的矿物油含量的方法。实验表明此方法具有良好的线性关系,相关系数可达0.9999。方法检出限为0.50mg/kg。平行样品间分析、试剂空白加标与基体加标回收率均能满足样品分析对精密度和准确度的要求。 相似文献
94.
95.
96.
《International Journal of Sustainable Engineering》2013,6(2):181-189
The effect of ozone in a chemical sludge disintegration process was evaluated. Sludge solution chemical oxygen demand (COD), total suspended solids (TSS) and settling were investigated in single and sequential processes. A significant influence of ozone dose on sludge disintegration was observed: ozone was utilised to degrade the soluble organic matter and to destroy cell surfaces and release the cell liquids. For a single ozonation step, we found an optimum ozone dose in the range of 0.008–0.013 g O3/g TSS to give the best COD and TSS removal efficiency. Disintegrated sludge was treated in a sequential process consisting of consecutive ozonation and bio-aeration (i.e. O3 + biological treatment). The tendency was dependent on accumulated ozone, treatment time and operational conditions. An accumulated ozone dose of 0.055 g O3/g TSS in two separate ozonation processes followed by biological treatments led to COD and TSS removal efficiency of 53 and 46.6%, respectively. The removal efficiency was improved by increasing aerobic treatment time and/or by mixing ozonated sludge with non-ozonated sludge. The settling ability of sludge was found to be fast at very low specific ozone doses. An observed tendency was the effect of ozone on cell disintegration and protein liberation. The use of sequential processes improved the settling tendency of sludge. 相似文献
97.
超声辅助电催化氧化降解苯酚影响因素的研究 总被引:1,自引:0,他引:1
为探讨水体中苯酚的超声辅助电催化氧化降解,考察了超声的频率和声强、溶液的pH值、温度、支持电解质的浓度,电流密度以及苯酚的浓度等因素的影响。在超声声强分别为21.1W/cm2和27.1W/cm2下电催化氧化降解40min,COD去除率分别为59.3%和64.4%,明显高于无超声作用下41.6%的COD去除率;在中性和弱碱性介质中(pH0值在7 ̄11之间)苯酚的降解效果较好,pH0=10时,苯酚降解的准一级反应速率常数最大;体系的初始pH值超过11,苯酚的降解速率下降很快,这主要是因为体系的碱性太强导致许多副反应的发生,降低了电流效率,反而不利于污染物的氧化降解;溶液中的支持电解质Na2SO4的浓度(CNa2SO4)为10g/L时,苯酚降解的准一级反应速率常数和电催化氧化降解反应时的槽电压均达到最优;在电催化氧化降解过程中,随着电流密度的增加,污染物的氧化降解速率和效率也随之增大。综合考虑降解效率和电流效率两方面因素,电流密度在10 ̄30mA/cm2范围内较为适宜。 相似文献
98.
为了提高废水中氨氮处理效率,采用响应面分析法对超声吹脱处理香兰素生产废水中的氨氮工艺条件进行优化,建立了吹脱时间、pH值、超声波功率及气液比4个关键因素与氨氮去除率之间的回归模型。结果表明,各影响因素对氨氮去除率影响程度由大到小依次为超声波功率、气液比、pH值、吹脱时间。确定对氨氮去除的最佳工艺条件为在超声功率90 W,超声吹脱时间90 min,pH值12、气液比600∶1的条件下,氨氮的去除率达到91.60%,与预测值接近,表明拟合度好。试验模型可以用来指导超声吹脱法处理废水中的氨氮。 相似文献
99.
100.
为研究超声对饮用水中隐孢子虫(Cryptosporidium parvum)的灭活情况,考察了超声频率、功率、pH值和温度对灭活率的影响,通过形态学观察初步探讨了超声灭活隐孢子虫的机制,并进行了灭活动力学分析.结果表明,低频有利于隐孢子虫灭活,19.8kHz, pH7.2,温度(20±1)℃条件下超声15min灭活率可达92.5%,频率升高灭活率反而下降.在本实验条件下,超声功率103W对隐孢子虫的灭活效果与151W的相近,pH值对超声灭活隐孢子虫的影响不大,36℃超声灭活15min灭活率为95.6%,而在9℃下超声15min灭活率为88.3%,水温升高有利于灭活.灭活前后的形态学变化表明超声空化作用导致细胞膜破坏,细胞质流出从而起到灭活孢囊的效果.超声灭活隐孢子虫遵循假一级反应动力学,灭活隐孢子虫以低频率高功率的效果最好,可认为隐孢子虫的灭活以超声空化的强度为主. 相似文献