BAF-BAC组合工艺对受污染河水水质净化研究

研究通过采用BAF-BAC组合工艺净化受污染河水,进行了该系统对主要污染物指标的去除效果分析,并结合多种生物毒性效应检测,进行了系统对生物毒性物质的去除研究。结果表明:组合工艺系统稳定运行阶段,对COD、NH3-N和TN平均去除率分别在60%、96%和19%左右。试验条件下最适宜水力负荷10 L/h,BAF单元最佳气水比为7:1时,系统对上述污染物的去除率分别达到72%、99%和20%。发光菌抑制试验表明,受污染河水在浓缩50、10和2倍时,相对抑制率均高于80%,经BAF-BAC组合装置净化后,相对抑制率分别为15.8%、7.8%和3%,出水水质没有表现出明显急性毒性特征;受污染河水对大型蚤急性致死率达到100%,而最终出水大型蚤死亡率为0%;在浓缩50倍、20倍、10倍和1倍时,受污染河水水样对仔鱼的致死性分别为100%、70%、20%和0,最终出水水样中仔鱼死亡率均为0,说明组合工艺系统各单元对此类毒性物质均有去除效果。     

土地生态功能的特点与保护

土地的生态功能指在物质、能量迁移与转化过程中,土地所表现的能够满足和维持生物体以及人类生活需要的自然环境条件和效用。它包括生态环境的调节功能和生物支持功能两大类,具有整体性、关联性、空间地域性和时间动态性等特征。其中,生态环境的调节功能可分为保护土壤功能、防风固沙、涵养水源功能、调节微气候功能、净化环境功能等五类;生物支持功能主要指产生与维持生物多样性,为生物提供良好的栖息环境。土地的生态功能除了受地形地貌、土壤、气候、水、植物等自然条件的制约外,还受土地利用方式、土地利用结构和区域土地政策等社会经济因素的影响。     

中国地区生物质燃烧释放的含碳痕量气体

为了研究中国地区生物质燃烧不同阶段释放的各种妆胆气体排放比与排放因子，建立了动态与静态燃烧室以及ＣＨ４、ＣＯＳ、ＣＯ、及ＣＯ２的采样、富集、分析方法；然后对典型乔木、灌木与草的地上部分生物质进行规模不同的燃烧实验，测得痕量 排放比和排放因子，根据全国森林生态系统碳贮量的估计及火灾统计资料，初步测算了中国地区生物质向大气中释放含碳痕量气体量。     

低浓度SO2长期暴露下菜豆的生长发育和气孔反应

本研究采用连续搅拌槽反应器系统(CSTR)对菜豆(Phaseolus vulgaris)进行低浓度SO_2长期暴露试验.结果表明,SO_2在植物可见伤害阈值以下抑制了莱豆生长,叶片气孔阻力随SO_2浓度的增加而增加.植物一旦脱离SO_2污染的环境,气孔就恢复到正常水平.切除子叶的菜豆生长明显受抑,但对SO_2敏感性和留子叶菜豆相同.     

西藏的环境氟水平与砖茶型氟中毒

为探讨西藏儿童与砖茶型氟中毒的关系,以拉萨为中点,藏北那曲为北部点,定日县为南部点,对这3个地区的土壤、燃料、水源和主要食物进行了氟含量测定.采用世界卫生组织(WHO)和世界粮农组织(FAO)提出的<化学污染物的膳食摄入量研究指南>,进行了食物结构、饮茶习惯、儿童食物摄入量以及儿童每日总摄氟量的调查按美国国家牙科研究所Horowitz提出的标准进行了儿童氟斑牙检查.结果表明,3个调查点均属传统的低氟区,而儿童每日摄氟量高,那曲8.03mg,拉萨6.93mg,定日7.68mg.其原因来自含砖茶的食品酥油茶和糌粑(青稞粉拌砖茶水的食物).这2种食物占日总摄氟量的99.74%(那曲),98.70%(拉萨),99.60%(定日),砖茶氟摄入导致西藏儿童砖茶型氟中毒的流行.氟斑牙患病率分别达到82.66%(那曲),52.89%(拉萨),75.93%(定日),氟斑牙指数表明,那曲、定日属氟中毒重度流行区,拉萨属中度流行区.砖茶型氟中毒是我国近年来发现的氟病新类型,与饮水型、燃煤污染型比较,它具有覆盖面大、隐蔽性强、难以防治的特点,降低砖茶氟含量可能是防治砖茶型氟中毒的最好方式.     

Enhanced ozonation degradation of atrazine in the presence of nano-ZnO: Performance, kinetics and effects

Enhanced ozonation degradation of atrazine (ATZ) with nano-ZnO (nZnO) as catalyst and the influences of the operational parameters have been investigated through semi-continuous experiments in this study. The results demonstrated that the combination of ozone (O₃) and nZnO showed an obvious synergetic effect and the ATZ degradation conformed to pseudo-first-order kinetics. An improvement of ATZ degradation efficiency by 41.8% and pseudo-first-order rate constant by more than a factor of four was obtained in the O₃/nZnO process after 5 min of reaction compared to O₃ alone. Meanwhile, the degradation efficiency of ATZ was gradually enhanced with increasing nZnO dosage and initial pH in the range from 3.0 to 8.0, and a higher amount of ATZ was degraded when the initial concentration of ATZ rose from 0.5 to 5 mg/L. Additionally, sulfate ion, chloride ion, nitrate ion and low concentrations of humic acid substances led to enhancement of the ATZ degradation. The notable decrease of ATZ removal efficiency observed in the presence of radical scavengers and the results of free radical tests indicated that OH is the dominant active radical species. The mechanism investigation demonstrated that the enhancement effect could be attributed to the introduction of nZnO, which could promote the utilization of O₃, enhance the formation of superoxide radical, and further accelerate the production of hydrogen peroxide and the generation of OH/O₂-.     

乙酸铜对银鲳幼鱼急性毒性及抗氧化酶活性的影响

为评价乙酸铜对银鲳的安全性及毒性效应,采用静水急性暴露实验,研究了8个乙酸铜浓度梯度(0、0.150、0.206、0.282、0.387、0.531、0.729、1.00 mg·L~(-1))对银鲳幼鱼的急性毒性,以肝脏和鳃组织的超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、谷胱甘肽过氧化酶(GSH—PX)以及谷胱甘肽巯基转移酶(GST)活性为指标研究乙酸铜对银鲳幼鱼的毒理作用,并进行安全评价。结果表明,高浓度乙酸铜会对银鲳幼鱼产生了较大的毒性,48 h和96 h-LC_(50)分别为0.898 mg·L~(-1)、0.264 mg·L~(-1),安全质量浓度为0.026 mg·L~(-1);不同浓度乙酸铜胁迫下银鲳幼鱼组织中的SOD、CAT、GSH-PX和GST活性均表现为低浓度被诱导而高浓度受抑制的规律,与乙酸铜浓度呈抛物线型剂量效应关系,此外,肝脏中4种抗氧化酶活性普遍高于鳃组织。研究发现,乙酸铜胁迫对抗氧化酶的影响,可以反映银鲳幼鱼机体的受损状况,其中SOD可较灵敏地指示早期低浓度的铜污染。     

氧化钙燃烧固硫添加剂的研究

在寻找钙基燃烧固硫加剂，并探讨其机理的试验中，研究了碱金属化合物在不同含量，不同温度下对氧化钙固硫率的影响，试验结果表明，一些碱金属化合物能使固硫率增加约１０个百分点左右，采用ＳＥＭ和热天平分析了固硫率提高的原因，提出碱金属化合物提高固硫率的机理在于：低熔点液相共熔物的形成导致ＣａＯ微观结构的改变。     

石灰预处理和干发酵对稻草热解特性影响

深入研究生物质热解有助于热解机理的理解,利用热重分析来探讨石灰预处理和干发酵对稻草热解特性的影响。结果表明:预处理使木质素和半纤维素含量增加,而干发酵使VS、半纤维素和纤维素含量降低;预处理和干发酵改变稻草热解特性,但未改变稻草的热反应机理;热解一级动力学方程很好模拟稻草热解的主失重阶段,稻草热解活化能数值为42.3～47.8 kJ/mol,属于正常范围;预处理降低反应活化能,而干发酵增加反应活化能。这为秸秆及其干发酵残渣的气化提供了重要的设计依据。     

Level and distribution of DDT in surface soils from Tianjin, China

One hundred and eighty eight surface soil samples were collected from the Tianjin area to study the contamination of DDT and its metabolites. Measurements were taken for p,p'-DDE, p,p'-DDD, p,p'-DDT, o,p'-DDE, o,p'-DDD and o,p'-DDT for all samples. The results indicated that p,p'-DDT and p,p'-DDE were the predominant contaminant compounds in the surface soil samples, with mean concentrations of 27.5 and 18.8 ng g(-1) respectively. No significant differences in DDT concentrations were found between the soils from wastewater treated irrigated areas and other areas, suggesting that wastewater irrigation is not an important source of DDT in the area. However, the spatial distribution of soil DDTs levels in the area did correlate well with early direct application rates of pesticides. In addition, both pH level and organic carbon content are also known factors affecting the level of DDT and its metabolites. Although it was assumed that the use of these chemicals was banned in the early 1980s, the current concentration levels appear to be too high to be mere residuals after 20 years degradation.