全氟辛烷磺酸(PFOS)对半滑舌鳎肝脏细胞的毒性效应

为探究海洋环境中持久性有机污染物——全氟辛烷磺酸(PFOS)的生物毒性效应,以半滑舌鳎肝脏细胞(HTLC)为研究对象,将其暴露于含不同浓度PFOS的DMEM-F12培养基中,分别染毒24、48、72 h后,利用噻唑蓝比色法(MTT)和透射电镜实验评价PFOS的细胞毒性;同时测定活性氧自由基(ROS)和超氧化物歧化酶(SOD)活性来探讨PFOS对细胞的氧化损伤效应。结果发现,细胞活性随PFOS浓度升高呈先促进后抑制趋势,当PFOS浓度达到1 000%mol·L-1时细胞活性受到显著抑制(P0.01);电镜结果显示PFOS能引起与代谢相关的细胞器如线粒体、内质网等发生肿胀甚至破损;与对照组相比,ROS含量和SOD活性分别在20%mol·L-1、200%mol·L-1开始出现显著性差异(P0.05),证实在PFOS引起的氧化应激反应中SOD起到了清除自由基作用以维持细胞稳态。研究表明,PFOS对海洋鱼类细胞具有一定的生物毒性,能引起细胞产生氧化应激反应,并进一步破坏生物膜系统,从而导致细胞增殖和多种代谢途径受到抑制。     

高压天然气管道危险区域预测模型

介绍了ASME B31.8S-2001(天然气管道完整性管理)中采用的危险区域预测模型,该模型由火灾模型、气体释放速率模型和热强度阈值3部分组成,它表明了高压天然气管道断裂后,危险区域与管线直径、运行压力的关系.     

从汶川大地震看“安全社区”建设

在2008年“5·12”汶川特大地震中,四川安县桑枣中学因2200名学生和老师无一伤亡而声名远扬,这一“奇迹”完全得益于该校校长每年组织学生紧急疏散演习。     

油田采出水回用技术研究进展

综述了离子交换技术、膜技术、冷冻技术和蒸馏技术等油田废水回用技术的研究进展,并对油田采出水回用技术的发展方向进行了展望。     

Mathematical Modeling and Numerical Algorithms for Simulation of Oil Pollution

This paper deals with the mathematical modeling and algorithms for the problem of oil pollution. For solving this task, we derive the adjoint problem for the advection–diffusion equation describing the propagation of oil slick after an accident, which we call the main problem. We prove a fundamental equality between the solutions of the main and the adjoint problems. Based on this equality, we propose a novel method for the identification of the pollution source location and the accident time of oil emission. This approach is illustrated on an example for an accident in the offshore of the central part of the Vietnamese coast. Numerical simulations demonstrate the effectiveness of the proposed method. Besides, the method is verified for 1D model of substance propagation.     

Study of the Climate Change Impacts on Water Quality in the Upstream Portion of the Cau River Basin,Vietnam

This paper presents simulations of climate change impacts on water quality in the upstream portion of the Cau River Basin in the North of Vietnam. The integrated modeling system GIBSI was used to simulate hydrological processes, pollutant and sediment wash-off in the river basin, and pollutant transport and transformation in the river network. Three projections for climate change based on emission scenarios B1, B2, and A2 of IPCC Special Report on Emission Scenarios (SRES) were considered. By assuming that the input pollution sources and watershed configuration were constant, based on 2008 data, water quality in the river network was simulated up to the terminal year 2050. For each climate change scenario, patterns of precipitation in wet and dry year were considered. The change in annual and monthly trends for dissolved oxygen (DO), biochemical oxygen demand (BOD), and ammonium ions (NH4+) load and concentration for different portions of the watershed have been analyzed. The results of these simulations show that climate change has more impact on changing the seasonal water quality parameters than on altering the average annual load of the pollutants. The percent change and change pattern in water quality parameters are different for wet and dry year, and the changes in wet year are smaller than those in dry year.     

汾河流域水系和表层沉积物中多环芳烃的空间变化规律及其生态风险研究

本研究在汾河流域上、中、下游及其部分支流布设29个采样点,对其水体和表层沉积物多环芳烃(PAHs)的空间分布规律及生态风险进行了分析和讨论。结果表明,汾河流域水相中丰水期PAHs总量浓度范围是0.530~16.002μg·L~(-1),平均浓度为(2.738±3.078)μg·L~(-1),枯水期PAHs总量浓度范围是0.588~12.916μg·L~(-1),均值为(2.762±3.132)μg·L~(-1)。就空间分布而言,汾河流域整体呈现上游污染较轻,中下游污染严重的特点。PAHs的组成规律显示,丰水期和枯水期PAHs含量均以低环(2~3环)为主,不同采样期低环PAHs所占比例分别为96.5%和90.4%。与其他15个研究地区水体PAHs含量比较,汾河流域水体中PAHs污染程度的国内外对比处于中等到较高程度的污染。丰水期和枯水期水体中PAHs来源于石油源和植物、木材、煤的燃烧,主要受到流域煤化工、燃煤电厂排放污染物的影响。地表水健康风险评价结果显示,汾河流域丰水期和枯水期分别有13.8%和20.7%的点位存在一定的健康风险。汾河流域沉积相中16种PAHs平均浓度为(3.774±1.987)μg·g-1,其污染主要集中在流域中下游地区。PAHs的组成规律显示,PAHs含量集中在低环(2~3环),约占总量的75%左右。与本研究提到的河流、湖泊及港口沉积物中PAHs含量比较,汾河流域沉积物中PAHs污染程度仍处于中等偏高的污染水平。丰水期沉积相中PAHs以燃烧源和石油源为主,部分来自典型石油类产品的输入。表层沉积物生态风险评价结果显示,对于提出的12种PAHs的生态风险的效应区间低值(ERL值)或效应区间中值(ERM值)以及苯并(b)荧蒽(Bb F)和苯并(k)荧蒽(Bk F)这2类没有最低安全值的PAHs化合物来说,汾河上、中、下游流域均有采样点的PAHs可能存在着对生物的潜在生态风险。通过本研究可全面地了解该流域多环芳烃的空间分布规律及其可能的来源,并且为汾河流域多环芳烃污染的控制和生态风险评价提供科学依据。     

Simulated Impacts of Climate Change on Current Farming Locations of Striped Catfish (Pangasianodon hypophthalmus; Sauvage) in the Mekong Delta,Vietnam

In Vietnam, culturing striped catfish makes an important contribution to the Mekong Delta’s economy. Water level rise during rainy season and salt intrusion during dry season affect the water exchange and quality for this culture. Sea level rise as a consequence of climate change will worsen these influences. In this study, water level rise and salt water intrusion for three sea level rise (SLR) scenarios (i.e., +30, +50, and +75 cm) were simulated. The results showed that at SLR +50, the 3-m-flood level would spread downstream and threaten farms located in AnGiang, DongThap and CanTho provinces. Rising salinity levels for SLR +75 would reduce the window appropriate for the culture in SocTrang and BenTre provinces, and in TienGiang’s coastal districts. Next to increasing dikes to reduce the impacts, the most tenable and least disruptive option to the farming community would be to shift to a salinity tolerant strain of catfish.     

铜、锌氰配合物在离子交换纤维上的扩散、吸附机理

运用Boyd液膜扩散公式和范山鹰等提出的扩散模型,考察了碱性溶液中铜、锌氰配合物在离子交换纤维上的扩散行为;通过分析吸附前后纤维上官能团的位置变化以及解吸前后纤维上元素含量的变化,研究铜、锌氰配合物在纤维上的吸附机理。实验结果表明,离子交换纤维对铜、锌配合物的吸附在反应初期,以液膜扩散为主控制步骤,反应后期,以空隙扩散为主控制步骤。并运用离子交换纤维在水溶液中具有类似胶体型物质的双电层结构解释了不同控制阶段吸附速率不同的原因,虽然各阶段吸附速率有所不同,但纤维对铜、锌氰配合物的吸附均为离子交换机制。     

吸附联合低温等离子体法去除甲苯废气

对介质阻挡放电条件下产生的低温等离子体联合吸附去除低浓度甲苯废气进行了实验研究。考察了反应器内分别填充分子筛、陶瓷环和混合填料时,甲苯的吸附效果;比较了各种填充条件下,低温等离子体对甲苯的去除效果和副产物臭氧的产生量;并对填充混合填料时不同外加电压、不同操作条件下,吸附联合低温等离子体去除甲苯的过程进行系统的研究。结果表明,外加电压相同,混合填料对甲苯的去除率最高,大于97%,依次是分子筛、陶瓷环、无填充;同时混合填料的臭氧浓度小于其他填料;当电压为18 kV时,混合填料可获得较高的甲苯去除率,同时产生的臭氧副产物最少。