甲苯在硝酸盐还原条件下的生物降解性能研究

通过对长期受石油污染的土著微生物进行培养驯化,得到适于降解甲苯的优势混合菌,并对其在硝酸盐还原条件下降解甲苯的件能进行研究.结果表明,驯化所得甲苯降解菌的最适降解条件为:温度25℃,pH值7.5,C/N值15,接种量1%.混合降解菌对硝态氮的去除符合一级动力学特征,其降解速率常数为0.0021 mg/(L·h).采用非...     

盆栽植物净化甲苯废气

采用动态模拟法模拟盆栽植物对甲苯污染气体的净化,考察吊兰和金绿萝两种盆栽植物在净化甲苯过程中,甲苯入口浓度与植物对甲苯净化速率的关系。结果表明,2种盆栽植物对低浓度甲苯废气具有长期明显的净化效果。在相同条件下,吊兰茎叶和土壤的净化速率优于金绿萝体系。在植物的耐受浓度范围内,2种植物茎叶和土壤的净化速率均随着甲苯入口浓度的升高而增大,且白天的净化速率明显高于黑夜时的净化速率。在实验过程中,吊兰土壤体系的降解率随着甲苯浓度的升高逐渐下降;金绿萝土壤体系的降解率基本不受甲苯入口浓度的影响。吊兰盆栽体系的降解率明显大于金绿萝的降解率。两种植物盆栽体系的降解率随甲苯进口浓度的影响可以忽略。     

Mn的氧化价态对Mn/γ-Al2O3催化剂催化臭氧氧化气相低浓度甲苯的影响

采用共沉淀法,以Al₂O₃为载体制备Mn/γ-Al₂O₃和Mn-Ce/γ-Al₂O₃催化剂,并分别在N₂气氛和O₂气氛下焙烧。采用固定床连续流动反应器,研究所制备催化剂在室温条件下催化臭氧氧化甲苯的性能。通过XRD、XPS和FTIR等手段对催化剂的结构和组成进行表征。结果表明,Mn/γ-Al₂O₃催化剂具有良好的催化臭氧氧化甲苯和催化臭氧自身分解的性能,共沉淀法制备催化剂的最佳Mn负载量为20%。O₂气氛焙烧和Ce的加入,可以有效提高催化剂的活性和寿命。原因是O₂气氛焙烧和Ce的加入可以提高Mn的氧化价态。催化剂失活的主要原因是有机副产物在催化剂表面吸附堆积,失活催化剂在550℃、空气气氛下焙烧可恢复催化性能。     

CdS-TiO2/MWCNTs结构表征及其光催化性能

采用溶胶-凝胶法,制备了多壁碳纳米管（MWCNTs）负载的双组分复合半导体光催化剂CdS-TiO2/MWCNTs。通过透射电镜（TEM）、比表面分析（BET）、X射线衍射（XRD）和紫外-可见吸收光谱（UV-vis）等分析方法对光催化剂进行了结构表征,并考察了CdS-TiO2/MWCNTs对甲苯降解的光催化性能。结果表明：纳米活性粒子CdS-TiO2均匀负载于MWCNTs上,比表面积、光吸收阈值和强度增大,活性粒子间以及活性粒子与载体之间具有协同作用,有利于光催化性能的提高,CdS-TiO2/MWCNTs在主波长为254 nm紫外光照射下对甲苯的降解效果较好,去除率可达55.3%。     

Atmospheric Volatile Organic Compound Monitoring. Ozone Induced Artefact Formation

Assessment of population exposure to VOC in ambient atmospheres is receiving heightened interest as the adverse health effects of chronic exposure to certain of these compounds are identified. Active (pumped) and passive samplers are the most commonly used devices for this type of monitoring. It has been shown, however, that these devices, along with all other preconcentration techniques, are susceptible to ozone interference. It is demonstrated that this interference occurs even at low ozone concentrations and that it may result in the under-estimation of population exposure. A convenient and effective ozone scrubbing method is identified and successfully applied and validated for both active and passive samplers for a range of VOC.     

程序升温微波辐照法解吸活性炭上吸附的甲苯

利用微波辐照作为加热手段,采用程序升温的方法对活性炭上吸附的甲苯进行解吸。程序升温条件为：初始温度及升温幅度为100℃,每个温度点保持10min,终温500℃保持5min。实验结果表明,程序升温解吸45min,甲苯解吸率达91％。程序升温和400℃恒温微波辐照解吸两种方法对比发现,甲苯解吸率达90％的时间基本相当,但程序升温解吸的能量消耗更小,能量利用率更高。     

Human health risks of petroleum-contaminated groundwater

BACKGROUND, AIM AND SCOPE: The volatile organic compounds Benzene, Toluene, Ethylbenzene and Xylene (BTEX) are commonly found in petroleum derivatives and, at relatively high levels, can be associated with human health risks. Due to industrial activities, accidental petroleum spills are the main route of soil and groundwater contamination. The aim of the present study was to evaluate the indoor health risks due to tap water consumption contaminated by BTEX. MATERIALS AND METHODS: BTEX indoor exposure can occur through three principal pathways: inhalation, ingestion and dermal absorption. A multiphase and multicomponent model was used to simulate BTEX transport in groundwater. For evaluation of human risks due to the use of contaminated tap water, a mathematical model was elaborated. RESULTS: BTEX concentrations in a drinking well were obtained as a function over time. These concentrations were used to obtain the exposure due to the use of water from the contaminated drinking well. In addition to showing the highest concentration in water, benzene was the compound that remained for a longer period before being completely degraded. For all the evaluated BTEX, oral ingestion was also the main pathway of exposure for adults, whereas the contribution of inhalation and oral exposition in children were seen to be of the same magnitude. The sensitivity analysis of BTEX total dose for adults showed that direct ingestion was the most significant factor, followed by shower time, volume of the shower room, inhalation rate, and shower flow rate. For children, the most significant variable was also direct ingestion, followed by shower time, volume of the shower room, and body weight. DISCUSSION: In the current design situation, there would not be any health risks by the use of BTEX-contaminated water to the general population living in the neighborhood of the petroleum spill. Therefore, no remediation measures in the area of the spill would be necessary. CONCLUSIONS: The present results indicate that the design of a good scenario can perform an accuracy risk assessment. This model can serve as a useful tool for predicting indoor exposure to substances for which no direct data are available, reducing monitoring efforts and observing how different processes affect outcomes. RECOMMENDATIONS AND PERSPECTIVES: These preliminary data allow the establishment of a basis for further investigations focusing on efficiently recovering petroleum from contaminated sites.     

苯甲醛清洁生产工艺研究

采用硫酸锰与碳酸铵反应制得的碳酸锰为原料 ,在 3种温度条件下连续焙烧转化成Mn2 O3 ,将Mn2 O3 、硫酸和甲苯进行固、油、水非均相氧化反应 ,制备苯甲醛 .反应结束后 3相自然分层 ,油相经简单蒸馏分出苯甲醛产品 ,没反应的甲苯循环使用 ;水相中还原生成的硫酸锰 ,循环与碳酸铵反应 ,制备碳酸锰 ;固相剩余的Mn2 O3 用于循环氧化反应 .对整个工艺流程优化 ,5次循环后的苯甲醛转化率仍保持在 75 %左右     

含碳纳米C-TiO_2薄膜光催化降解气相甲苯研究

对以工业丙烷为燃料、空气为氧化剂、TiCl4为先驱物的火焰CVD法制备的含碳纳米C-TiO2光催化剂,用沉降法在石英玻璃管内壁制备C-TiO2纳米薄膜,以管式反应器为光催化氧化装置,实验研究了含碳纳米C-TiO2的纳米薄膜对甲苯气体的光催化降解规律。探讨了甲苯初始浓度和相对湿度等因素对降解率的影响。实验结果表明,相对湿度约为60%时,对甲苯有最佳的光催化降解效果。在催化剂负载量约为4.9mg、主波长为254nm和365nm的8W紫外灯各一盏、甲苯初始浓度约为60mg/m3、气体流量为400mL/min(甲苯在光催化器中停留时间约为3.45s)的条件下,甲苯的降解率可达45%。     

低温等离子体协同分子筛净化甲苯的性能研究

本文开展了介质阻挡放电等离子体协同分子筛材料在常温常压下氧化甲苯的研究.结果表明,该系统对甲苯的去除效率与应用电压、分子筛种类有关.甲苯转化率随峰值电压的提高而提高,最高去除率可以达到48.1％.分子筛单位吸附量与该系统对甲苯转化率有关,吸附量越大的分子筛,甲苯转化率越高.