固载化瓜环的制备及其对磺胺间甲氧嘧啶的吸附性能研究

在微波无极灯下将烯氧基瓜环固载到巯基硅胶(MSG)上,制得固载化瓜环(ACB[6]-SG).通过红外光谱表征固载产物,并研究固载化瓜环对磺胺间甲氧嘧啶(SMM)的吸附性能.结果表明,SMM在固载化瓜环上的吸附基本在2 min内即可达到平衡;Henry方程和Freundlich方程均能较好地拟合SMM在固载化瓜环和巯基硅胶上的等温吸附曲线,但是SMM在固载化瓜环上的吸附主要是在瓜环中的分配,而SMM在巯基硅胶上的吸附则主要是多分子层的表面吸附作用;SMM在固载化瓜环上的平衡吸附量远大于在巯基硅胶上的平衡吸附量;SMM在两者上的吸附过程是一个放热过程,温度越低吸附效果越好.     

加油站油气回收处理技术的研究及应用进展

介绍了国内外加油站油气回收处理技术现状及应用进展，阐明了国内开发的重点应是：密封加油系统及设备、吸收式油气回收装置及分散吸附集中处理系统。     

Elevated CO2 stimulates net accumulations of carbon and nitrogen in land ecosystems: a meta-analysis

The capability of terrestrial ecosystems to sequester carbon (C) plays a critical role in regulating future climatic change yet depends on nitrogen (N) availability. To predict long-term ecosystem C storage, it is essential to examine whether soil N becomes progressively limiting as C and N are sequestered in long-lived plant biomass and soil organic matter. A critical parameter to indicate the long-term progressive N limitation (PNL) is net change in ecosystem N content in association with C accumulation in plant and soil pools under elevated CO2. We compiled data from 104 published papers that study C and N dynamics at ambient and elevated CO2. The compiled database contains C contents, N contents, and C:N ratio in various plant and soil pools, and root:shoot ratio. Averaged C and N pool sizes in plant and soil all significantly increase at elevated CO2 in comparison to those at ambient CO2, ranging from a 5% increase in shoot N content to a 32% increase in root C content. The C and N contents in litter pools are consistently higher in elevated than ambient CO2 among all the surveyed studies whereas C and N contents in the other pools increase in some studies and decrease in other studies. The high variability in CO2-induced changes in C and N pool sizes results from diverse responses of various C and N processes to elevated CO2. Averaged C:N ratios are higher by 3% in litter and soil pools and 11% in root and shoot pools at elevated relative to ambient CO2. Elevated CO2 slightly increases root:shoot ratio. The net N accumulation in plant and soil pools at least helps prevent complete down-regulation of, and likely supports, long-term CO2 stimulation of C sequestration. The concomitant C and N accumulations in response to rising atmospheric CO2 may reflect intrinsic nature of ecosystem development as revealed before by studies of succession over hundreds to millions of years.     

Carbonyl sulfide (COS) and carbon disulfide (CS2) exchange fluxes between cotton fields and the atmosphere in the arid area in Xinjiang,China

Due to the important roles of carbonyl sulfide (COS) and carbon disulfide (CS₂) in atmospheric chemistry, this study was designed to determine different proportions of COS and CS₂ fluxes contributed from different sources, i.e., vegetation, soil and roots, at monthly and hourly timescales in the arid area in Xinjiang, China. Results indicated that the seasonal net uptake of COS by vegetation was predominant in the growing season. The CS₂ fluxes from vegetation and soils had no significant seasonal variations compared with COS. The exchange rates of COS and CS₂ have been found to be stimulated by the addition of nutrients in the form of urea fertilizer. Compared with the results of plots that were treated only with nitrogen, the treatments with both nitrogen and sulfur displayed no significant difference in the exchange fluxes. The results of compartment experiments indicated that the aboveground plants had the highest uptake of COS and had a vital role in the uptake of COS during the main growth period. The shares of COS emissions from the soil and roots increased to 6–17% and 55–58%, respectively, in the total COS fluxes when conditions, such as drought and senescence, were unfavorable for the developmental of vegetation. Observations of the preliminary diurnal fluxes indicated that the fluxes that occurred at night, with contributions from soils and plants, accounted for 27% of the total daily uptake of COS uptake. These quantitative results may be reasonably accounted for the use of COS as a promising tracer to obtain independent constraints on terrestrial carbon exchange at regional to global scales for their response to special environmental conditions in semiarid area.

     

组织管理失误对操作人员行为安全影响分析

为使操作人员行为更安全,对组织管理失误进行分析,归纳为管理控制失误、组 织规程失误、组织安全管理失误、安全监督失误、教育培训不足5个方面,运用结构方 程模型（SEM）分析对操作人员行为安全的影响,使用AMOS软件对模型求解。运用直觉 三角模糊数对模型中指标进行评价并采用TOPSIS法对不安全行为进行排序。研究表明: 管理控制和组织规程对建立安全监督体系有正向作用;管理控制和组织规程对组织安全 管理实施有正向作用;管理控制和组织规程对有教育培训正向作用;建立安全监督体系 、组织安全管理实施和教育培训对操作人员安全行为有正向作用。进行风险排序有利于 企业对关键工种提出改进措施,提高企业效益。     

降水变化、氮添加对鼎湖山主要森林土壤有机碳矿化和土壤微生物碳的影响

全球变化对土壤有机碳(SOC)存贮与分解的影响在全球碳(C)循环中具有重要地位.分别通过室内土壤培养法和氯仿熏蒸法,研究了降水变化和氮(N)添加处理对鼎湖山3种不同演替阶段的季风常绿阔叶林、针阔混交林和马尾松针叶林SOC矿化和土壤微生物量碳(SMBC)的影响.结果表明:1)降水量增加能够提高森林演替晚期SOC累积矿化量和矿化速率,而对森林演替早期SOC累积矿化量和矿化速率没有显著影响(P>0.05).2)干旱条件(降水量减少)降低森林SMBC含量,且在鼎湖山季风林表层土壤(0～10 cm)中SMBC的减少达到显著水平(P<0.05).3)N添加处理对鼎湖山3种森林类型SOC累积矿化量、矿化速率以及SMBC都没有显著影响(P>0.05).未来关于SOC矿化对全球变化响应的研究,要综合考虑土壤有机质质量、C/N比例、外源性氮输入等因素的作用.图4表2参37     

Eukaryotic community diversity and pathogenic eukaryotes in a full-scale drinking water treatment plant determined by 18S rRNA and metagenomic sequencing

Environmental Science and Pollution Research - In this study, 18S rRNA high-throughput sequencing was applied to investigate the eukaryotic community in a full-scale drinking water treatment plant....     

乙草胺对土壤微生物的影响研究

研究了乙草胺在6种不同浓度下对土壤微生物种群数量及土壤中细菌、放线菌、真菌生长速率的影响.采用密闭法测定乙草胺对土壤微生物呼吸的影响.结果表明,乙草胺对土壤微生物种群数量及土壤中细菌、放线菌、真菌生长速率均有一定的抑制作用,对土壤微生物呼吸作用具有明显的抑制作用.     

滤料对微细粒子过滤性能实验研究

滤料是捕集微细粒子的最有效材料,其性能直接影响着除尘效果。本文研究了不同风速下不同克重、不同透气度的涤纶针刺滤料和PTFE水刺滤料的分级计数效率、PM_(2.5)计重效率性能。结果表明,过滤效率随克重的增大而增大,随过滤风速的增大而减小;如过滤直径为2.5μm的粒子,1.5 m/min风速下涤纶针刺毡的克重从500 g/m~2增加到600 g/m~2时效率从69.97%增加到81.84%;风速从1.5 m/min增加到3.0 m/min时,500 g/m~2涤纶针刺毡的效率从69.97%减小到44.69%。     

OH自由基与溴乙烷反应动力学和大气中存留寿命

溴代烷烃是破坏臭氧层的重要物质,用放电流动－共振荧光技术,测定ＯＨ自由基与Ｃ２Ｈ５Ｂｒ在２９７－３６９Ｋ温度范围的反应速率常数,求得其阿仑尼乌斯公式,并根据对流层的平均温度２２７Ｋ下求是ＯＨ自由基与溴乙烷反应速率常数（Ｋ）值,算出共在对流层的寿命为０．１６８ａ这将提供这类化合物使用否的重要科学根据。