基于主逻辑图的安全风险建模研究

概率风险评估已成为研究复杂系统安全风险较为成熟的方法 ,其风险模型的建立是基于故障树/事件树的 ,风险分析具有众多的静态特性。然而 ,大的复杂系统往往存在诸多动态因素 ,在风险研究需要考虑这些动态因素的情况下 ,基于传统故障树 /事件树的模型则难以提供支持。笔者对此进行了分析 ,提出了基于主逻辑图的安全风险建模 ;主要介绍了主逻辑图的概念及其建模方法 ,并对模型进行了分析 ;在此基础上 ,基于主逻辑图分析事故场景 ,对场景风险的量化评估进行了简要介绍 ,并结合某核反应堆例子进行了分析。     

高速铁路轨道的安全管理

高速铁路的轨道结构要求具有高平顺性。为使轨道结构的平顺性持久、稳定 ,需要在设计、施工、管理各个环节进行严格控制。国外高速铁路的运营经验表明 ,轨道的安全管理在实现高速行车时 ,起着巨大的技术保障作用。笔者在分析高速铁路轨道结构的平顺性特征基础上 ,讨论了轨道不平顺管理、列车振动加速度管理、钢轨踏面及伤损管理、无缝线路管理等方面的问题 ,并提出了改进新思路 ,即应建立异常情况下的处理机制。     

热辐射的破坏准则和池火灾的破坏半径

热辐射破坏是发生在开放气环境中的池火灾的主要破坏机理。本文讨论了热辐射的破坏准则，提出预测池火灾破坏半径的方法，进行了数值模拟计算，分而和时纳了池火灾的基本规律     

Facile in situ synthesis of silver nanocomposites based on cellulosic paper for photocatalytic applications

Environmental Science and Pollution Research - In this work, various photocatalysts were synthesized with an impregnation-precipitation process to in situ decorate Ag-based nanoparticles (NPs,...     

Effect of straw retention on carbon footprint under different cropping sequences in Northeast China

Environmental Science and Pollution Research - Inappropriate farm management practices can lead to increased agricultural inputs and changes in atmospheric greenhouse gas (GHG) emissions, impacting...     

苯酚的褐煤吸附过程及影响因素分析

以污染物苯酚为研究对象,褐煤作为吸附剂,通过批量实验研究了褐煤对废水中苯酚的吸附特性,考察了褐煤粒径、褐煤投加量、反应温度、反应p H、反应时间对吸附作用的影响,并对吸附过程进行了分析。采用Lagergren动力学方程和拟二级吸附动力学方程分析苯酚吸附过程,结果表明,褐煤对苯酚的吸附动力学曲线更符合拟二级吸附动力学方程,反应初始速率随着苯酚初始浓度的升高而增大,但随着煤粉粒径的增大而减小。颗粒内扩散模型对苯酚的吸附动力学曲线分析结果表明:苯酚在褐煤上的吸附首先经历了速率较快的膜扩散控制阶段,进而经历了吸附较缓慢的颗粒内扩散控制阶段,最后到达吸附平衡,褐煤对苯酚的吸附过程主要受到颗粒内扩散控制。     

氨氮污染减排技术与政策研究

随着中国经济高速发展,污染物排放量大幅增长,水环境中的氨氮污染问题也已成为水环境治理的关注焦点.文章分别从源头削减和末端治理两个层面介绍了中国工业、农业、城镇生活源氨氮减排的技术的发展,氨氮减排技术为氨氮污染防控工作提供了科学、合理、有效的技术和理论支撑;从政策体制方面介绍了氨氮减排现状和要求,对氨氮减排技术及氨氮减排体制在中国的发展提出了相应的展望,为进一步发展和完善氨氮减排工作提供借鉴和参考.同时,也为未来氨氮污染物排放总量减排会进一步向智能化、精细化发展,氨氮减排技术在减排体制中体现的支撑作用.     

Sulfur speciation and bioaccumulation in camphor tree leaves as atmospheric sulfur indicator analyzed by synchrotron radiation XRF and XANES

Analyzing and understanding the effects of ambient pollution on plants is getting more and more attention as a topic of environmental biology.A method based on synchrotron radiation X-ray fluorescence and X-ray absorption near edge structure spectroscopy was established to analyze the sulfur concentration and speciation in mature camphor tree leaves (CTLs),which were sampled from 5 local fields in Shanghai,China.Annual SO2 concentration,SO42-concentration in atmospheric particulate,SO42-and sulfur concentration in soil were also analyzed to explore the relationship between ambient sulfur sources and the sulfur nutrient cycling in CTLs.Total sulfur concentration in mature camphor tree leaves was 766-1704 mg/kg.The mainly detected sulfur states and their corresponding compounds were +6 (sulfate,include inorganic sulfate and organic sulfate),+5.2 (sulfonate),+2.2 (suloxides),+0.6 (thiols and thiothers),+0.2 (organic sulfides).Total sulfur concentration was strongly correlated with sulfate proportion with a linear correlation coefficient up to 0.977,which suggested that sulfur accumulated in CTLs as sulfate form.Reduced sulfur compounds (organic sulfides,thiols,thioethers,sulfoxide and sulfonate) assimilation was sufficed to meet the nutrient requirement for growth at a balanced level around 526 mg/kg.The sulfate accumulation mainly caused by atmospheric sulfur pollution such as SO2 and airborne sulfate particulate instead of soil contamination.From urban to suburb place,sulfate in mature CTLs decreased as the atmospheric sulfur pollution reduced,but a dramatic increase presented near the seashore,where the marine sulfate emission and maritime activity pollution were significant.The sulfur concentration and speciation in mature CTLs effectively represented the long-term biological accumulation of atmospheric sulfur pollution in local environment.     

An online monitoring system for atmospheric nitrous acid (HONO) based on stripping coil and ion chromatography

A new instrument for measuring atmospheric nitrous acid(HONO) was developed,consisting of a double-wall glass stripping coil sampler coupled with ion chromatography(SC-IC).SC-IC is featured by small size(50 × 35 × 25 cm) and modular construction,including three independent parts:the sampling unit,the transfer and supporting unit,and the detection unit.High collection efficiency(> 99%) was achieved with 25 μmol/L Na2CO3 as absorption solution even in the presence of highly acidic compounds.This instrument has a detection limit of 8 pptv at 15 min time resolution,with a measurement uncertainty of 7%.Potential interferences from NOx,NO2+SO2,NO2+VOCs,HONO+O3,HNO3,peroxyacetyl nitrite(PAN) and particle nitrite were quantified in laboratory studies and were found to be insignificant under typical atmospheric conditions.Within the framework of the 3C-STAR project,inter-comparison between the SC-IC and LOPAP(long path liquid absorption photometer) was conducted at a rural site in the Pearl River Delta.Good agreement was achieved between the two instruments over three weeks.Both instruments determined a clear diurnal profile of ambient HONO concentrations from 0.1 to 2.5 ppbv.However,deviations were found for low ambient HONO concentrations(i.e.< 0.3 ppbv),which cannot be explained by previous investigated interference species.To accurately determine the HONO budget under illuminated conditions,more intercomparison of HONO measurement techniques is still needed in future studies,especially at low HONO concentrations.     

餐厨垃圾暗-光耦联发酵制氢研究

文章以餐厨垃圾为底物进行暗-光耦联发酵两步法制氢研究.探讨物料比、起始pH对暗发酵产氢的影响;温度、起始pH对光合发酵产氢的影响,得到如下结论.在暗发酵阶段,以餐厨垃圾为底物,在合适条件下产氢量可达25.18 mL/gVS.在光合发酵阶段,以暗发酵液为底物,在合适条件下产氢量可达34.62 mL/gVS.以餐厨垃圾为底物,两步联合制氢可达59.80 mL/gVS,为仅暗发酵产氢量的2.37倍.