供碳源载体及其在低碳氮比污水处理中的应用研究

为解决低C/N污水的脱氮问题,本实验自行研制开发了一种新型碳聚合物载体.对该载体进行低C/N污水的生物膜脱氮研究,考察了HRT、pH、DO、温度等因素对系统同步硝化反硝化脱氮效果的影响.结果表明:在C/N比为4、pH=8、DO=1 mg/L、HRT=6 h,T=24℃的条件下,氨氮及总氮的去除率分别可以达到90%和70...     

膨胀石墨污水净化处理研究

利用膨胀石墨强大的吸附能力来处理城市生活污水,结果发现用膨胀石墨处理污水的前8h,COD的去除率达43％;处理第5～9d将出现第二个高峰,COD的去除率达48％,分析原因可能是存在物理吸附和微生物絮凝两方面的作用。最后经过20d的处理,膨胀石墨对生活污水的COD和BOD总去除率分别达到86％、78．9％,且除臭能力也很显著。     

生物炭对塿土土壤温室气体及土壤理化性质的影响

通过田间小区试验,分别向塿土土壤中添加0、20、40、60、80 t·hm~(-2)的苹果果树枝条生物炭后,分析了生物炭对土壤温度、土壤团聚体、NO_3~--N、NH_4~+-N、微生物量碳以及土壤温室气体排放的影响.结果表明,生物炭可以缓解土壤温度的变化,增加土壤大团聚体的数量,尤其是5 mm、5~2 mm和1~0.5 mm的团聚体数量.与对照相比,随着生物炭施用量的增加,土壤NO_3~--N、NH_4~+-N、微生物量碳分别增加了4.9%~33.9%、9.1%~41.1%和11.8%~38.5%.本研究中生物炭对土壤温室气排放的影响主要表现为:添加生物炭后,土壤CO_2的排放量以及CH_4的吸收汇分别增加了6.73%~23.35%和3.62%~14.17%;施用20 t·hm~(-2)和40 t·hm~(-2)的生物炭降低了土壤N_2O的排放和综合增温潜势(GWP),而当生物炭施用量大于等于60 t·hm~(-2)时反而增加了土壤N_2O的排放和综合增温潜势(GWP).说明生物炭作为一种土壤改良剂和碳减排剂,能够改善土壤质量,提高土壤肥力,提高农田土壤增汇减排的作用,此外,选择合适的生物炭施用量至关重要.     

碱改性脱水污泥对水中镉的吸附效能研究

城市市政污水处理厂产生的剩余污泥是一种良好的重金属生物吸附剂制备原料。以北京某市政污水处理厂产生的脱水剩余污泥为原料,采用碱改性处理方法,制备得到碱改性脱水污泥生物吸附剂,通过其对水中镉的等温吸附实验,考察其重金属吸附效能。研究结果表明:碱改性脱水污泥对水中镉的等温吸附曲线符合Langmuir等温吸附模型。碱改性处理后,脱水污泥对水中镉的最大饱和吸附容量提高了2.8倍,达0.966 mmol/g,显著高于同类型脱水污泥生物吸附剂。碱改性脱水污泥对水中镉的最大饱和吸附容量与改性过程中所使用的Na OH浓度之间的线性相关性较差,呈现一定的波动变化趋势。     

Removal of polycyclic aromatic hydrocarbons from aqueous solution by raw and modified plant residue materials as biosorbents

Removal of polycyclic aromatic hydrocarbons （PAHs）, e.g., naphthalene, acenaphthene, phenanthrene and pyrene, from aqueous solution by raw and modified plant residues was investigated to develop low cost biosorbents for organic pollutant abatement. Bamboo wood, pine wood, pine needles and pine bark were selected as plant residues, and acid hydrolysis was used as an easily modification method. The raw and modified biosorbents were characterized by elemental analysis, Fourier transform infrared spectroscopy and scanning electron microscopy. The sorption isotherms of PAHs to raw biosorbents were apparently linear, and were dominated by a partitioning process. In comparison, the isotherms of the hydrolyzed biosorbents displayed nonlinearity, which was controlled by partitioning and the specific interaction mechanism. The sorpfion kinetic curves of PAHs to the raw and modified plant residues fit well with the pseudo second-order kinetics model. The sorption rates were faster for the raw biosorbents than the corresponding hydrolyzed biosorbents, which was attributed to the latter having more condensed domains （i.e., exposed aromatic core）. By the consumption of the amorphous cellulose component under acid hydrolysis, the sorption capability of the hydrolyzed biosorbents was notably enhanced, i.e., 6-18 fold for phenanthrene, 6-8 fold for naphthalene and pyrene and 5-8 fold for acenaphthene. The sorpfion coefficients （Kd） were negatively correlated with the polarity index [（O＋N）/C], and positively correlated with the aromaticity of the biosorbents. For a given biosorbent, a positive linear correlation between logKoc and logKow for different PAHs was observed. Interestingly, the linear plots of logKoc-logKow were parallel for different biosorbents. These observations suggest that the raw and modified plant residues have great potential as biosorbents to remove PAHs from wastewater.     

Dyes adsorption using a synthetic carboxymethyl cellulose-acrylic acid adsorbent

Removal of noxious dyes is gaining public and technological attention. Herein grafting polymerization was employed to produce a novel adsorbent using acrylic acid and carboxymethyl cellulose for dye removal. Scanning electron microscopy and Fourier-transform infrared spectroscopy verified the adsorbent formed under optimized reaction conditions. The removal ratio of adsorbent to Methyl Orange, Disperse Blue 2BLN and malachite green chloride reached to 84.2%, 79.6% and 99.9%, respectively. The greater agreement between the calculated and experimental results suggested that pseudo second-order kinetic model better represents the kinetic adsorption data. Equilibrium adsorptions of dyes were better explained by the Temkin isotherm. The results implied that this new cellulose-based absorbent had the universaiity for removal of dyes through the chemical adsorption mechanism.     

Pd/activated carbon sorbents for mid-temperature capture of mercury from coal-derived fuel gas

Higher concentrations of Hg can be emitted from coal pyrolysis or gasification than from coal combustion, especially elemental Hg. Highly efficient Hg removal technology from coal-derived fuel gas is thus of great importance. Based on the very excellent Hg removal ability of Pd and the high adsorption abilities of activated carbon（AC） for H2 S and Hg, a series of Pd/AC sorbents was prepared by using pore volume impregnation, and their performance in capturing Hg and H2 S from coal-derived fuel gas was investigated using a laboratory-scale fixed-bed reactor. The effects of loading amount, reaction temperature and reaction atmosphere on Hg removal from coal-derived fuel gas were studied. The sorbents were characterized by N2 adsorption, X-ray diffraction（XRD） and X-ray photoelectron spectroscopy（XPS）. The results indicated that the efficiency of Hg removal increased with the increasing of Pd loading amount, but the effective utilization rate of the active component Pd decreased significantly at the same time. High temperature had a negative influence on the Hg removal. The efficiency of Hg removal in the N2-H2S-H2-CO-Hg atmosphere（simulated coal gas） was higher than that in N2-H2S-Hg and N2-Hg atmospheres, which showed that H2 and CO, with their reducing capacity, could benefit promote the removal of Hg. The XPS results suggested that there were two different ways of capturing Hg over sorbents in N2-H2S-Hg and N2-Hg atmospheres.     

上海市夏冬两季PM_(2.5)中碳组分污染特征及来源解析

2009年7月和2010年1月在上海市华东理工大学采样点采集PM2.5样品,应用热/光碳分析仪对样品中的有机碳(OC)和元素碳(EC)进行了测定,并计算得到了二次有机碳(SOC)、char-EC和soot-EC的质量浓度。结果显示:采样期间PM2.5、OC、EC、SOC、char-EC、soot-EC夏季平均浓度分别为(58.87±20.04)、(11.37±4.12)、(3.68±1.27)、(4.37±2.86)、(3.00±1.24)和(0.68±0.30)μg/m3;冬季平均浓度分别为(142.31±45.47)、(16.01±4.43)、(5.53±2.36)、(5.67±2.92)、(5.11±2.35)和(0.42±0.17)μg/m3,除soot-EC外,均呈现夏季低、冬季高的特点。在不同空气质量下,OC、EC和char-EC的质量浓度具有明显差异,且三者均与能见度、平均风速呈显著负相关。夏冬两季soot-EC、char-EC、SOC和POC占TC的百分含量相差不大,其中POC/TC值最高,soot-EC/TC值最低。夏季SOC/TC的比值高于冬季,可能由于气温高有利于发生光化学反应。对8个碳组分进行主成分分析,结果显示,燃煤、生物质燃烧、汽油和柴油车排放对PM2.5中碳组分的贡献显著,并且可能受燃煤和汽油车排放的影响最大。     

铁碳微电解法预处理聚氯乙烯(PVC)离心母液废水

采用铁碳微电解法对聚氯乙烯(PVC)离心母液废水进行预处理。分别考察反应时间、铁粉投加量、Fe/C(质量比)、pH值及曝气速率对母液废水中的COD和聚乙烯醇(PVA)去除率的影响,并在此基础上通过正交实验确定了废水COD的最佳处理条件。结果表明,最佳处理条件为:反应时间为4 h、铁粉投加量为30 g/L、Fe/C为1:2、pH值为2、曝气速率为0.8 L/min。在该条件下,废水中COD、PVA和TOC的平均去除率分别为(67%±2)%、(98%±1)%和(55%±3)%,废水的BOD/COD值从0.3提高到0.5,可生化性得到了显著提高。同时,废水中的NH3-N、浊度也在很大程度上得到了去除,出水中总铁含量也很低。     

维生素B_(12)催化降解三氯乙烯的碳氯同位素分馏机理

挥发性氯代烃(volatile chlorinated hydrocarbons,VCHs)是地下水中一类重要的有机污染物,维生素B12是催化VCHs还原脱氯的高效催化剂。该文选取VCHs中典型的污染物三氯乙烯(TCE)作为研究对象,以Ti(Ⅲ)为电子供体,探索不同pH条件下,维生素B12催化TCE还原脱氯过程中碳、氯同位素分馏机理。反应溶液初始pH为7.5~9.0时,其表观一级动力学反应速率系数k值为0.06~0.15 h-1;碳同位素富集系数εC为-1.8‰~-2.4‰,氯同位素富集系数εCl均值为-1.5‰。这说明,pH增大,Ti(Ⅲ)还原势能增大,反应的速率提高;还原脱氯不同反应途径所占份额改变,碳、氯同位素分馏程度变化。碳、氯的单体同位素分析(CSIA)技术可以用来评价地下水氯代烃污染降解程度和效率,结合分析2种元素能够提高污染物修复评价的准确性,同位素富集系数的稳定性研究可为其不同环境条件下的精确评价提供理论依据。