Fenton氧化对污泥脱水性能和溶解性物质作用效果的研究

研究了Fenton氧化技术在改善污泥脱水性能方面的效果,以污泥比阻和毛细吸水时间来表征污泥的脱水性能,探讨了体系的pH和反应时间对污泥脱水性能的影响以及Fenton氧化对污泥溶解性物质(SCOD+多聚糖+蛋白质)含量的影响研究表明,Fenton氧化能够明显改善污泥的脱水性能。在体系的pH=3时,反应1h后,Fenton氧化处理后污泥的CST从处理前的130.9s减少到19.7s,降幅85%;污泥SRF从处理前的3.58×108 s2/g降低到1.05×107 s2/g,降幅97%。同体系处理污泥SCOD、上清液中多聚糖和蛋白质的含量分别增加了3.7倍、2.6倍和1.5倍。     

SPME-G C法测试TCE、PCE条件的正交优化试验研究

运用正交设计方法对SPME-GC法测试三氯乙烯、四氯乙烯的固相微萃取条件进行优化。首先选择样品量、NaCl用量、萃取温度、萃取时间、解析温度等因素,设计5因素3水平正交试验方案。分析数据得到优化条件为NaCl用量30 g/L,萃取温度25℃,解析温度210℃,同时得出样品量与萃取时间是对试验结果具有显著意义的影响因素,采用二次回归正交组合设计试验对其进一步优化,并对结果进行回归分析,得到最优条件为样品量为5.5 mL,萃取时间为20.13 min。     

聚合铝铁对A2/O系统 EPS及生物絮凝性能的影响

通过向实验室构建的A2/O模型好氧池末端投加聚合铝铁(PAFC)来强化系统的生物除磷,使得出水总磷达到《城市污水处理厂污染物排放标准GB 18918-2002》中的一级A标准,并重点分析投加的PAFC对A2/O系统中活性污泥胞外聚合物(EPS)和活性污泥生物絮凝性能的影响.结果表明,随着PAFC投药量的增加,A2/O系统活性污泥EPS总量变化不大,但EPS组分中蛋白/多糖含量的比值逐渐降低,由投药前的3.30降低至投药后的2.30;EPS中金属离子含量逐渐增加,在厌氧-缺氧-好氧的运行周期内,各处理单元污泥的EPS中金属铝离子含量增加.投加PAFC后,活性污泥颗粒变大,二沉池出水的Zeta电位明显降低,由投药前-15.83 mV降低至-21.20 mV,污泥产量增加.因此,适量投加PAFC后,生物絮凝性能得到改善,出水中悬浊颗粒减少,出水水质变好.     

白腐真菌组合培养提高漆酶酶活的作用机制研究

采用白腐真菌组合培养的方式提高漆酶酶活,并对组合后菌株相互作用机制进行了研究.菌株55(Trametes trogii)和菌株m-6(Trametes versicolor)组合后漆酶酶活较菌株55和m-6分别提高了24.13倍和4.07倍;组合后菌株间不存在抑制作用;平板培养时,两菌株菌丝生长止于菌丝交界处,该处漆酶酶活最高并分泌褐色色素;液体培养时,菌株m-6对组合后漆酶酶活的提高起着更为重要的作用:向菌株55的培养物中添加菌块m-6,其酶活比向菌株m-6培养物中添加菌块55时的酶活高7.03倍,并且菌株m-6胞外物对菌株55的漆酶分泌也有明显的刺激作用,其中加入20 mL过滤灭菌胞外物可使菌株55漆酶酶活提高6.79倍,而且胞外物高温灭菌后仍能刺激菌株55的漆酶分泌,加入20mL后酶活比对照高4.60倍;Native-PAGE活性染色结果表明组合后同工酶种类未发生变化,但有3种同工酶的浓度升高.     

组合人工湿地对城镇污水处理厂尾水中有机物的去除特征研究

采用物理分级和三维荧光光谱法,研究了组合人工湿地对城镇污水处理厂尾水中不同形态有机物的去除特征.结果表明,组合人工湿地对污水处理厂尾水具有较好的深度处理效果,出水水质基本可以达到国家地表水环境质量标准(GB38382-2002)Ⅲ或Ⅳ类水标准.组合人工湿地处理系统对尾水中CODCr和BOD5总体去除率分别达到35.2%和44.3%,对尾水中总有机碳(TOC)、溶解性有机碳(DOC)、颗粒有机碳(POC)的平均去除率分别为46.9%、45.9%、48.3%.组合人工湿地系统不同单元对尾水中有机物的去除贡献率存在差异,其中,潜流湿地单元对尾水中CODCr和BOD5及其不同组分有机碳的去除效率较高.试验期间,由于藻类滋生,表流湿地单元出水中有机物含量波动较大,去除效果明显降低,藻类被打捞后,出水水质明显改善.三维荧光光谱分析结果显示,各个处理单元取样点的水样三维荧光光谱均出现4个明显的荧光峰.人工湿地各单元出水溶解性有机质(DOM)中,类蛋白和类腐殖酸物质含量较高,类富里酸物质含量较低.人工湿地对类蛋白和类腐殖酸物质有较强的去除作用.     

固相微萃取技术及其在环境样品分析中的应用

在介绍SPME技术装置、工作原理及影响因素的基础上,阐述了近年来SPME技术在环境样品分析中的应用。     

温度对膜生物反应器运行特性及膜污染的影响

温度对膜生物反应器（MBR）污染物去除效果和膜污染速率都有很大的影响。采用两套相同的MBR蓑置在冬季运行,其中一套维持20℃的恒温,另一套水温与周围环境相同。对两套装置处理效果及膜污染速率进行对比,并通过反应器中溶解性微生物产物（SMF）、胞外聚合物（EPS）含量、污泥粒径分布扣膜面污染物的比较,分析温度对MBR运行的影响。研究结果表明膜对污染物的截留能有效补偿低温时微生物作用的不足,因此低温对出水水质并没有显著的影响。此外,低温时虽然SMP和EPS的释放增加,但并没有引起膜污来的加剧。相反地,低温时污泥粒径较高温时小,而粒径较大的颗粒更易沉积于膜表面,因此低温时膜面固体物质含量较低,膜污染速率反而比高温时低。     

泥水预分离MBR膜污染缓减效能研究

通过长期运行实验,进行了泥水预分离膜生物反应器（sludge/water pre-separation membrane bioreactor, S/W-MBR）与传统淹没式膜生物反应器（submerged membrane bioreactor, SMBR）对比研究,考察了污泥浓度、胞外聚合物含量（extracellular polymeric substances, EPS）及过膜阻力（trans-membrane pressure, TMP）随运行时间的变化规律及其对膜污染的缓减作用.结果表明,S/W-MBR与SMBR生物区的污泥浓度基本一致,而S/W-MBR膜区的污泥浓度较SMBR有显著降低.两者生物区的EPS含量均随运行时间的延长而增加,而S/W-MBR膜区的单位质量污泥的EPS含量始终保持在15 mg/g左右的较低水平.S/W-MBR比SMBR具有更好的缓减膜污染能力,在近90d的连续运行过程中,前者的膜组件仅需清洗2次,后者的膜组件清洗了5次.     

Enzyme extraction by ultrasound from sludge flocs

Enzymes play essential roles in the biological processes of sludge treatment. In this article, the ultrasound method to extract enzymes from sludge flocs was presented. Results showed that using ultrasound method at 20 kHz could extract more types of enzymes than that ultrasound at 40 kHz and ethylenediamine tetraacetic acid (EDTA) methods. The optimum parameters of ultrasound extraction at 20 kHz were duration of 10 min and power of 480 W. Under the condition, ultrasound could break the cells and extract both the extracellular and intercellular enzymes. Ultrasound power was apparently more susceptive to enzyme extraction than duration, suggesting that the control of power during ultrasound extraction was more important than that of duration. The Pearson correlation analysis between enzyme activities and cation contents revealed that the different types of enzymes had distinct cation binding characteristics.     

Partitioning of water soluble organic carbon in three sediment size fractions： Effect of the humic substances

Water soluble organic carbon (WSOC) in sediments plays an important role in transference and transformation of aquatic pollutants. This article investigated the inherent mechanisms of how sediemnt grain size affect the partitioning coeffcient (k) of WSOC. Influences of NaOH extracted humic substances were particularly focused on. Sediments were sampled from two cross-sections of the middle Yellow River and sieved into three size fractions (< 63 μm, 63-100 μm, and 100--300 μm). The total concentration of WSOC in sediments (CWSOC) and k were estimated using multiple water-sediment ratio experiments. Results show that CWSOC ranges from 0.012 to 0.022 mg/g, while k ranges from 0.8 to 3.9 L/kg. Correlations between the spectrum characteristics of NaOH extracted humic substances and k were analyzed. Strong positive correlations are determined between k and the aromaticity indicators of NaOH extracted humic substances in different sediment size fractions. Comparing with finer fractions (< 63 μm), k is higher in larger size fractions (63--100 and 100--300 μm) related to higher aromaticity degree of NaOH extracted humic substances mostly. While negative relationship between k and the area ratio of fourier transform infrared spectroscopy (FT-IR) at 3400 and 1430 cm-1 implied that the lowest k was related to the highest concentration of the acidic humic groups in particles < 63 μm. WSOC in finer fractions (< 63 μm) is likely to enter into pore water, which may further accelerate the transportation of aquatic contaminants from sediment to water.