典型工业区土壤多环芳烃污染特征及影响因素

为完善我国典型工业区土壤多环芳烃(polycyclic aromatic hydrocarbons,PAHs)污染特征数据库,系统采集了成都市4个典型石油加工类工业区表层土壤样品,采用高效液相色谱法分析16种美国环保署优先控制PAHs的含量和组分特征.结果表明,4个工业区表层土壤(0～30 cm)中多环芳烃总含量范围为191. 2～1 604. 2μg·kg-1,平均含量(583. 6±365. 6)μg·kg-1;各工业区土壤PAHs均主要以中环PAHs和高环PAHs为主,各单体PAHs中以菲、芘、荧蒽和苯并[b]荧蒽为主要特征因子,且均存在潜在的污染风险.同时,采用数理统计方法分析土壤有机质及土壤颗粒粒径与PAHs含量的相关性,并揭示土壤PAHs赋存影响因素.结果表明,在土壤污染含量较高地块,土壤有机质是PAHs较好的吸附剂,能够在一定程度上预测土壤PAHs的迁移转化行为及土壤生态风险(PAHs致癌性);与有机质相比,土壤粒径与PAHs的相关性较低,总体表现为砂粒与PAHs含量无显著相关性,粉粒与之弱正相关,黏粒与之弱负相关.通过本研究,为此类区域的土壤修复实践或学术研究提供依据.     

载铜氮化碳纳米片对单质汞的吸附脱除特性

用简易热剥离法合成了氮化碳纳米片（CNNS）,再通过等体积浸渍法将铜负载于CNNS表面合成了载铜CNNS吸附剂,用于低温下吸附脱除气态单质汞（Hg⁰）.利用氮气吸附-脱附、X射线衍射（XRD）、扫描电子显微镜（SEM）、透射电子显微镜（TEM）、X射线光电子能谱（XPS）等手段对吸附剂进行表征.结果表明：CNNS对Hg⁰具有良好的吸附性能,吸附温度为120℃时,脱汞效率约为54.2%;载铜修饰可极大提高CNNS的脱汞活性,脱汞效率在40~240℃温度范围内均大于82.3%,这归因于铜与氮化碳间的紧密接触.煅烧温度对载铜CNNS的脱汞活性影响较大,最佳煅烧温度为200℃.通过载铜修饰可有效活化CNNS,提高其对Hg⁰的氧化能力,这可能归因于铜离子与氮化碳之间的莫特-肖特基电子转移效应.SO₂和水蒸气对载铜CNNS的脱汞性能有抑制作用.     

The thermal transformation mechanism of chlorinated paraffins: An experimental and density functional theory study

The increasing production and usage of chlorinated paraffins(CPs) correspondently increase the amount of CPs that experience thermal processes. Our previous study revealed that a significant amount of medium-chain chlorinated paraffins(MCCPs), short-chain chlorinated paraffins(SCCPs) as well as aromatic and chlorinated polycyclic aromatic hydrocarbons(Cl-PAHs) were formed synergistically during the thermal decomposition of CP-52(a class of CP products).However, the transformation mechanisms of CP-52 to these compounds are still not very clear.This article presents a mechanistic analysis on the decomposition of CP-52 experimentally and theoretically. It was found that CP-52 initially undergoes dehydrochlorination and carbon chain cleavage and it transformed into chlorinated and unsaturated hydrocarbons. Cyclization and aromatization were the most accessible pathways at low temperatures(200–400°C), both of which produce mostly aromatic hydrocarbons. As the temperature exceeds 400°C, the hydrocarbons could decompose into small molecules, and the subsequent radical-induced reactions become the predominant pathways, leading to the formation of Cl-PAHs. The decomposition of CP-52 was investigated by using density functional theory and calculations demonstrating the feasibility and rationality of PCB and PCN formation from chlorobenzene. The results improve the understanding of the transformation processes from CP-52 to SCCPs and Cl-PAHs as well as provide data for reducing their emissions during thermal-related processes.     

One-step synthesis of Cu(II) metal–organic gel as recyclable material for rapid, efficient and size selective cationic dyes adsorption

Efficient removal of non-biodegradable and hazardous dyes from wastewater remains a hot research topic. Herein, a rationally designed a Cu(Ⅱ)-based metal–organic gel(Cu-MOG) with a nanoporous 3 D network structure prepared via a simple one-step mixing method was successfully employed for the removal of cationic dyes. The Cu-MOG exhibited high efficiency, with an adsorption capacity of up to 650.32 mg/g, and rapid adsorption efficiency, with the ability to adsorb 80% of Neutral Red within 1 min. The high adsorption efficiency was attributed to its large specific surface area, which enabled it to massively bind cationic dyes through electrostatic interaction, and a nanoporous structure that promoted intra-pore diffusion. Remarkably, the Cu-MOG displayed size-selective adsorption, based on adsorption studies concerning dyes of different sizes as calculated by density functional theory. Additionally, the adsorption performance of the Cu-MOG still maintained removal efficiency of 100% after three regeneration cycles. These results suggested that the Cu-MOG could be expected to be a promising and competitive candidate to conveniently process wastewater.     

不同类型秸秆对污泥厌氧消化特性及细菌群落结构的影响

为促进污水处理厂污泥及农作物秸秆的资源化利用,探讨不同类型秸秆（玉米、小麦、水稻）对污泥厌氧消化特性、产气效果及细菌群落结构的影响,在中温〔（35±1）℃〕下,研究了污泥与秸秆按不同质量比（1:0、1:0.5、1:1、1:1.5）联合厌氧消化对污泥C/N（碳氮比）和厌氧消化环境中pH、ρ（NH₄+-N）、ρ（VFAs）（VFAs为挥发性脂肪酸）、日均沼气产量及φ（CH₄）、细菌群落的特征变化,以未添加秸秆的污泥厌氧消化为CK（对照）.结果表明:不同类型秸秆的添加对厌氧消化体系的pH、ρ（NH₄+-N）、ρ（VFAs）均产生显著影响,秸秆的加入明显提高了厌氧消化体系的产气量.联合厌氧消化可通过优化厌氧消化底物的C/N,从而增加ρ（VFAs）和φ（CH₄）.其中,污泥与玉米秸秆质量比为1:1.5时对厌氧消化的促进作用最为显著;其沼气日产量为2 303.08 mL,比CK（536.15 mL）提高了3倍以上,而沼气中φ（CH₄）最高为54.49%,比CK（37.07%）提高46.99%.此外,不同类型秸秆的添加也可通过改变细菌群落结构从而促进秸秆降解,增加ρ（VFAs）和提高沼气产量,特别是添加秸秆后,Bacteroidetes会逐渐取代Proteobacteria成为主要的产酸菌种,从而导致ρ（VFAs）增加.研究显示,污泥与秸秆联合厌氧消化可改善污泥营养结构,改变细菌群落结构,提高沼气产量.      

用铬革渣制备L-脯氨酸等六种氨基酸

铬革渣经碱性处理提取蛋白质,用6mol HCl水解,活性炭脱色,调节pH,由732~#阳离子交换树脂初步分离,得到的脯氨酸组分再由717#阴离子交换树脂分离,所得L-脯氨酸洗脱液减压蒸发浓缩,用无水乙醇结晶,得色谱纯L-脯氨酸。在732~#阳离子交换树脂上最后流出的是精氨酸,经处理得色谱纯L-精氨酸盐酸盐。在717~#阴离子交换树脂上分离可分别获得L-谷氨酸、L-天门冬氨酸、L-丙氨酸和甘氨酸。     

苹果树长期接触低浓度SO2对生长的影响

本文报道用四套开顶式熏气装置对四棵十一年生国光苹果树进行一个生长季低浓度SO_2熏气的试验结果,各罩内SO_2浓度分别为O(CK)、0.10、0.18和0.28 mg/m~3,结果表明,0.10 mg/m的SO_2对试验树的光合作用速率、叶面积、单位叶片重量和当年生枝条生长量无明显影响;0.18 mg/m有轻度影响;0.28mg/m影响显著。     

火电厂浮升烟流穿透模型分析

通过对现有浮升烟流穿透模型的分析,考虑了非均匀层结大气对烟流抬升的影响,提出了一个较为合理的穿透模型,区域性火电厂实例计算结果表明它是有效的.因此,该模型为大型火电厂环境影响评价提供了一种估算浮升烟流穿透过程的实用方法.     

下凹式绿地对城市降雨径流污染的削减效应

以现场7次降雨14组径流污染监测数据为基础,探讨了下凹式绿地对城市降雨径流污染的削减效应,分析了径流污染负荷、绿地土壤与覆被植物、降雨历时等因素对污染削减率的影响.结果表明,当COD,NH4+-N和TP的浓度分别为56.0~216.0,0.27~2.97,0.20~0.95mg/L时,下凹式绿地对COD,NH4+-N和TP的平均削减率为52.21%,48.98%和47.35%.下凹式绿地对径流污染的削减过程可分为2个阶段:初期1h的径流污染削减率符合一级动力学模式,后期径流污染削减规律可用二级动力学模式表示.降雨历时增加可提高污染物削减率,当降雨历时约从3h增加到20h时,径流污染的综合削减率可从40%上升到65%.     

江苏省重要生态功能保护区划分的问题及对策分析

江苏省重要生态功能保护区的划分,为实现社会经济和生态环境的协调发展奠定了良好基础。针对重要生态功能保护区划分过程中存在的各种问题,如划分区域分割、划分随意性大、禁止开发区少、管理不到位等,分别从技术层面和管理层面提出了相应的对策与建议,为重要生态功能保护区划分的完善和生态功能的充分发挥提供了可行方案。