石墨烯基磁性复合材料吸附水中亚甲基蓝的研究

建立了一种超声辅助共沉淀法制备磁性Fe3O4/氧化石墨烯(Fe3O4/GO)纳米粒子.透射电镜和磁滞回线研究表明,该复合物具有小的颗粒尺寸和超顺磁性.该磁性纳米材料可以吸附废水中的染料亚甲基蓝,实验研究了溶液pH值、吸附剂的用量、时间和温度对亚甲基蓝去除率的影响.结果表明,pH值在6~9范围内,Fe3O4/GO都能高效地吸附亚甲基蓝.反应过程在前25 min反应速率很快,到180 min内达到吸附平衡.该磁性纳米材料对亚甲基蓝的吸附符合Langmuir吸附等温模型和准二级动力学方程,吸附过程是一个自发和吸热过程.该吸附材料对亚甲基蓝吸附容量高,在313 K时Fe3O4/GO的饱和吸附量为196.5 mg·g-1.另外,可以方便地通过外部磁场分离回收吸附剂,利用过氧化氢可以再生重复使用,是一种优良的吸附染料废水的材料.     

北京地区冬夏季持续性雾-霾发生的环境气象条件对比分析

在北京地区,除冬季供暖期外盛夏也是雾-霾天气的高发季节,与我国南方不同.使用微波辐射仪、风廓线和常规气象探测资料、NCEP再分析资料以及大气成分观测结果,通过对比分析揭示了冬、夏季持续6 d的2个雾-霾过程形成和维持机制的异同.冬季雾-霾过程出现在高空西北气流、低层多短波活动的背景下,其形成和维持的主要机制是边界层内始终有逆温层、地面弱风场、底层湿度逐渐增大.逆温层昼高夜低、湿度昼小夜大是影响PM2.5质量浓度和能见度日变化的重要环境因子.在雾-霾天气持续期间地面弱风场能够维持主要源于冷空气势力弱、常不能影响到地面.此外,入夜后地面迅速辐射降温、边界层上层有暖平流以及空气过山后下沉增温在逆温层的形成中起了关键作用.然而,对于夏季持续性雾-霾天气,气溶胶区域输送、环境大气保持对流性稳定、空气的高饱和度是其发生的重要条件.在副热带高压长时间控制下对流层低层盛行偏南风,北京的PM2.5质量浓度随着偏南风风速增大升高.对流层底层系统性偏南风与北京附近的山谷风共同构成了从北京以南气溶胶累积地向北输送的机制.夏季雾-霾过程低层没有逆温,但是北京上空一直维持超过200 J·kG-1的对流抑制能量,它同样限制了污染物的垂直扩散.夏季自由对流高度也存在昼夜变化,其对PM2.5浓度和能见度的作用与逆温层高度升降相同.因此,冬、夏个例分别代表了2种不同类型的持续性雾-霾过程,导致差异的根本原因在于大气环流型.     

构造湿地在污水处理厂二级出水后的深度处理应用研究

中国大部分污水处理厂目前均采用二级处理工艺,主要去除碳源污染物,而消解氮、磷类污染物的效果较差.在传统二级处理工艺基础上,对中水进行三级深度处理,BOD5、SS以及COD类污染物去除效果明显,但运行成本较高,处理量受限.人工构造湿地利用基质-植物-微生物复合生态系统的物理、化学和生物的三重协同作用,通过过滤、吸附与沉淀等作用,以及微生物同化分解和植物吸收转化等途径,可有效去除污水中的氮、磷、SS、有机物及重金属等污染物,且具有低投资、低运转费、低维持成本等特点.     

冻融作用对酸化土壤中NH_4~+吸附特性的影响研究

以吉林农业大学长期定位试验田土壤为研究对象,采用室内模拟冻融环境和振荡平衡的方法,探讨冻融作用对NH+4在酸化土壤中吸附特性的影响。结果表明,随着冻融周期的增加,酸化土壤对NH+4的吸附量逐渐减小;冻结时间对酸化土壤吸附NH+4的影响不明显;随着冻前含水量的增加,酸化土壤对NH+4的吸附量逐渐减小,对NH+4的吸附量由大到小排列为:15%25%35%。酸化土壤对NH+4的吸附过程能很好地利用Langmuir方程拟合,冻融作用促进酸化土壤中NH+4的释放,增加了NH+4流失风险。     

王坡井田煤层气井采出水处理方法研究

针对王坡井田煤层气井采出水中污染物含量低,仅CODcr超出国家一级排放标准(GB 8978-1996)的特点,采用活性炭吸附处理,然后通过絮凝沉降迅速回收采出水中悬浮活性炭。结果表明:活性炭投加量为3g/L、吸附时间为40 min,PAM投加量为2 mg/L,沉降时间为5 min,活性炭回收率为98.35%,处理后采出水CODcr为45.45 mg/L、SS为7 mg/L,达到国家一级排放标准(GB 8978-1996)。     

蚯蚓富集猪粪中Cu、Zn的条件优化研究

为探讨利用蚯蚓吸收富集在猪粪中的Cu、Zn以减少其在猪粪中含量的技术途径,实验以赤子爱胜蚓(Eisenia foetida)为生物反应器,采用L18(36)正交设计法,对蚯蚓吸收富集猪粪中Cu、Zn的最适条件进行了研究.结果表明,蚯蚓对猪粪中的Cu、Zn具有一定的吸收能力, 辅料类别、C/N、温度、湿度和蚯蚓密度均能影响蚯蚓对猪粪中Cu、Zn的吸收,综合考虑蚯蚓的生长及对猪粪Cu、Zn的吸收,以猪粪和玉米秸秆为饵料,C/N为22～30、温度为15 ℃、湿度为75%、接种密度为15尾/盆(100 g风干饵料中蚯蚓的生物量为2.29 g)的组合条件下,蚯蚓对猪粪Cu、Zn的吸收总量最高.     

中国水旱灾害危险性的时空格局研究

水灾与旱灾之间,不论在形成的原因上或是在治理措施上,都存在着相当密切的关系。受季风气候影响,中国的洪水和干旱灾害同时并存,近年来我国遭受极端水旱灾害事件的次数比以往增加很多。基于县域统计单元的水旱灾害信息,以总时段（1949—2005年）、分时段（1956—1965年,1996—2005年）、分季度和分月份4种时间尺度来划分,选取2359个县域单元上的灾害频数作为衡量水旱灾害危险性的指标,主要从危险性整体转移、高危险区转移、转移的形成因素以及高危险区的防灾减灾对策几个角度,探讨了中国水灾、旱灾以及水旱综合灾害的危险性时空分异规律。研究表明：近57年来,中国水旱灾害危险性的整体格局呈现东西分异,东部远远高于西部,这是气候一地貌一人类活动相互作用的产物。1956—1965年,我国水旱灾害危险性格局的东西分异明显;1996—2005年,水旱灾害危险性格局不变,高值区域明显增大,向东北、西北、南方扩展。水旱灾害危险性格局的季节变化显著,整体呈现夏季水旱灾害危险性高,春季次之,秋冬季危险性低的状况;月际变化与降水带的推移和承灾体的月际变化相似,7月水旱灾害危险性达到峰值。上述研究结果可为水旱灾害风险区划以及水旱灾害高危险区的减灾战略规划提供科学依据。     

人类抗灾体适能理论架构的研究

介绍了河北省教育科学“十一五”规划课题——体育培养大学生抗灾体适能的实践研究的阶段性研究成果。基于生物学、心理学和社会学的理论研究,通过文献资料法、访谈法和开放式调查法,提出了抗灾体适能的概念,分析了抗灾体适能的内涵和外延,并就将抗灾体适能结构划分为三个维度进行了研究,探讨了人类抗灾体适能理论模型的研究框架,提出了通过体育途径培养抗灾体适能的初步设想。     

A biomimetic absorbent for removal of trace level persistent organic pollutants from water

A novel biomimetic absorbent containing the lipid triolein was developed for removing persistent organic pollutants (POPs) from water. The structural characteristics of the absorbent were obtained by SEM and a photoluminescence method. Under optimum preparation conditions, triolein was perfectly embedded in the cellulose acetate (CA) spheres, the absorbent was stable and no triolein leaked into the water. Dieldrin, endrin, aldrin and heptachlor epoxide were effectively removed by the CA--triolein absorbent in laboratory batch experiments. This suggests that CA-triolein absorbent may serve as a good absorbent for those selected POPs. Triolein in the absorbent significantly increased the absorption capacity, and lower residual concentrations of POPs were achieved when compared to the use of cellulose acetate absorbent. The absorption rate for lipophilic pollutants was very fast and exhibited some relationship with the octanol--water partition coefficient of the analyte. The absorption mechanism is discussed in detail.     

Column studies on transport of deicing additive benzotriazole in a sandy aquifer and a zerovalent iron barrier

Benzotriazole (BTA), a chemical with wide industrial applications, is a typical additive in deicer/anti-icer used at airport. To achieve a better understanding of the transport behaviour and environmental fate of BTA, laboratory column studies have been performed on subsoil samples from Oslo Airport, Gardermoen. To explore possibilities for aquifer remediation, BTA behaviour was also studied in a column of granular zerovalent iron (Fe(0)). The subsoil column study demonstrates a very limited retardation of BTA. Consecutive loadings of BTA of the subsoil column showed no change of the break-through curve (BTC) and complete desorption was observed. The sorption behaviour of BTA to metallic iron (Fe(0)) was rather complex. Considerable retardation was observed in the Fe(0) column and repeated BTA loading resulted in an earlier break-through. Between 20% and 50% of the input concentration was retained permanently in the iron (Fe(0)) column. The BTA sorption to metallic iron was found to be enhanced by chloride which lowered the break-through concentration (i.e the C/C(0) plateau). The fraction of BTA remaining in the iron column was found to vary with the flow rate, indicating a time dependant multilayer sorption mechanism. The steady increase in the amount of adsorbed BTA to the iron column during loading corresponds to a rather strong bonding of 4-15 BTA layers to the iron surface. A very slow desorption of BTA was observed; even after flushing with 753 pore volumes of BTA free water, 7.5% of the BTA remained in the column. A geochemical model was developed based on PHREEQC-2 to simulate the sorption and transport of BTA in the tested materials. The BTA sorption was modelled with Freundlich sorption isotherms, as earlier determined in batch experiments. A slight adjustment of the Freundlich parameters was required to fit the observed column break-through. However, our model was not able to simulate the long-term retainment of BTA in the granular iron columns. The simulations confirm the high mobility of BTA in groundwater aquifers and suggest that zerovalent iron could be used to retain a BTA plume, although oxidation of the sorbent might reduce the long-term performance of such a remediation scheme and slow desorption has been observed.