包装箱用碳纤维增强复合材料贮存寿命研究

目的研究碳纤维增强复合材料贮存条件下的性能变化趋势和寿命评估。方法对碳纤维增强复合材料开展四个不同温度条件下的热氧老化试验,按试验周期定期取样开展冲击性能测试,对试验数据采用寿命预估方法进行处理,对材料性能进行预估。结果通过数据计算分别得到我国热带海洋、干热沙漠等典型气候条件下的碳纤维增强复合材料贮存寿命分别为17.21~35.89年。结论碳纤维增强复合材料具有较好的贮存性能,在较为严酷的热带海洋气候和给定的失效判据条件下,寿命预计为17.21年。试验和数据处理方法可以较好地预计材料的性能变化趋势和开展寿命评估。     

城市生活垃圾好氧堆肥中氨气变化及其影响

堆肥过程中氮素损失比较严重,而氨气挥发是氮损失的主要途径。利用城市生活垃圾进行好氧堆肥,研究其堆肥过程中氨气变化规律及其对堆肥性质的影响。结果表明:在堆肥期间,氨气含量先增加后减小,最后基本稳定在5 mg/kg左右;而全氮含量先降低后增加;硝态氮含量先降低后增加;铵态氮是先快速增加,后缓慢减小至稳定;pH值先下降后升高,最终稳定在中性范围内;w(C)/w(N)先增加后下降;有机质含量显著下降。     

Occurrence of selected aliphatic amines in source water of major cities in China

The formation of toxic nitrogenous disinfection byproducts (N-DBPs), such as nitrosamines, halonitromethanes and haloacetonitriles, from reactions between chlorine/chloramine and dissolved organic nitrogen in drinking water has caused great concern with regarding public health. This study revealed the occurrence of 17 aliphatic amines, some of which have been confirmed to be the precursors of N-DBPs, in source water across China. A sensitive method based on benzenesulfonyl chloride derivatization and liquid-liquid extraction followed by GC-MS analysis was established for the simultaneous analysis of the selected amines in aqueous samples. In total, 37 source water samples from the capital cities of 20 provinces were collected for the survey. Among the 17 amines, 14 were detected with an average frequency of detection of 36%. The most relevant amines in terms of frequency and maximum concentrations detected were dimethylamine (100%, 24.82 μg/L), methylamine (78%, 0.92 μg/L), N-methylethylamine (70%, 8.84 μg/L), propylamine (59%, 10.69 μg/L), diethylamine (54%, 3.76 μg/L), N-methylbutylamine (35%, 3.07 μg/L), N-ethylpropylamine (35%, 0.52 μg/L), and piperidine (32%, 2.35 μg/L). This is the first large scale survey of the aliphatic amines occurrence in source water in the world. The wide presence of nitrosamine precursors like dimethylamine, N-methylethylamine and diethylamine, and the precursors of haloacetonitriles and halonitromethanes like methylamine and propylamine suggests that better source water management is required to ensure the safety of drinking water.     

Long-term observations of tropospheric NO2, SO2 and HCHO by MAX-DOAS in Yangtze River Delta area, China

Yangtze River Delta(YRD) area is one of the important economic zones in China. However,this area faces increasing environmental problems. In this study, we use ground-based multi-axis differential optical absorption spectroscopy(MAX-DOAS) network in Eastern China to retrieve variations of NO_2, SO_2, and formaldehyde(HCHO) in the YRD area. Three cities of YRD(Hefei, Nanjing, and Shanghai) were selected for long-term observations. This paper presents technical performance and characteristics of instruments, their distribution in YRD, and results of vertical column densities(VCDs) and profiles of NO_2, SO_2, and HCHO.Average diurnal variations of tropospheric NO_2 and SO_2 in different seasons over the three stations yielded minimum values at noon or in the early afternoon, whereas tropospheric HCHO reached the maximum during midday hours. Slight reduction of the pollutants in weekends occurred in all the three sites. In general trace gas concentrations gradually reduced from Shanghai to Hefei. Tropospheric VCDs of NO_2, SO_2, and HCHO were compared with those from Ozone Monitoring Instrument(OMI) satellite observations, resulting in R~2 of 0.606, 0.5432, and 0.5566, respectively. According to analysis of regional transports of pollutants, pollution process happened in YRD under the north wind with the pollution dissipating in the southeast wind. The feature is significant in exploring transport of tropospheric trace gas pollution in YRD, and provides basis for satellite and model validation.     

聚糖菌颗粒污泥的有机物吸收及胞内储存特性

采用特殊运行方式的厌氧-好氧SBR系统(厌氧后排水),在乙酸钠、葡萄糖及葡萄糖-乙酸钠混合基质条件下均培养出了稳定的聚糖菌颗粒污泥.通过对典型周期有机物、磷酸盐、胞内糖原及聚β-羟基丁酸(PHB)变化的测定分析,证明有机基质的种类对于聚糖菌能量利用模式、有机物吸收速率及胞内储存物质种类具有显著的影响.污泥初始胞内糖原水平是有机物吸收数量及吸收速率的关键影响因素,当糖原水平低于0.05g/gSS时,厌氧有机物去除率与糖原水平直接相关:而糖原水平高于0.05g/gSS时,厌氧有机物去除率趋于稳定.不同糖原水平污泥厌氧吸收有机物的速率具有明显差异,在厌氧初期有机物快速吸收阶段,有机物厌氧吸收速率随胞内糖原水平升高而增加.     

聚糖菌颗粒污泥基于胞内储存物质的同步硝化反硝化

采用特殊运行方式的厌氧-好氧SBR系统(厌氧后排水),以乙酸钠为有机基质成功富集了聚糖菌颗粒污泥.聚糖菌颗粒污泥厌氧-好氧批式实验表明,聚糖菌颗粒污泥具有较强的SND能力,TOC/N分别为5.0,4.0,2.8时,SND效率分别96.4%、95.3%及96.2%,而周期总氮去除效率随着碳氮比降低而降低,分别为66.0%、61.2%及56.3%.通过对周期氨氮、亚硝酸盐氮、硝酸盐氮、TOC以及胞内糖原、PHB变化的测定分析,证明聚糖菌颗粒污泥SND过程中,污泥以厌氧阶段储存于胞内的多聚物PHB作为反硝化碳源,并且反硝化聚糖菌是系统中反硝化能力的来源.与溶解性基质相比,PHB的降解速率相对较低,因此在SND过程中,反硝化可以与硝化保持相近的速率,从而有助于获得良好的SND效果.     

重庆缙云山四川大头茶常绿阔叶林重金属元素的累积与生物循环

四川大头茶,常绿阔叶林,重金属,循环,净化     

江西省永丰县长田坑滑石矿床地质特征及找矿意义

江西省永丰县长田坑滑石矿床产于中二叠统小江边组第四段滑石(泥)岩夹灰岩中,矿体呈层状、似层状和透镜状.根据风化程度矿体分为风化矿体、半风化矿体与原生矿体三种类型,矿石矿物组成以滑石为主,次为蒙脱石、高岭石、石英及少量氧化铁、方解石、绢云母、白云石等.按照矿石自然类型和工艺性能,将矿石划分为原生滑石矿石、风化残余滑石矿石.原生滑石矿石以显微条带状构造、块状构造为主;风化残余滑石矿多为土状、多孔状构造.矿床类型为残积型、沉积和残积过渡型、沉积型.中二叠统小江边组第四段、第五段局部及其风化带为其主要找矿标志.     

乌梁素海冰盖中微塑料的分布特征及其与盐度、叶绿素a的响应关系

目前关于淡水湖泊冰盖中微塑料的分布特征研究还鲜见报道.为阐明乌梁素海冰盖中微塑料的赋存特征以及其与冰盖盐度、叶绿素a浓度之间的响应关系,通过野外采样、显微镜观察、傅里叶红外光谱测定和相关性分析等方法,对冰封期乌梁素海冰盖中微塑料的丰度、颜色、形状和种类进行鉴定,通过相关性分析探求微塑料在冰盖中的分布特征及其与盐度、叶绿...     

PM2.5与O3协同控制视角下深圳市工业VOCs源谱特征

选取深圳8类典型工业行业开展VOCs样品采集,检测分析了100种VOCs组分,从PM_2.5和O₃协同控制的角度分析了不同污染源的成分谱特征和对环境的影响.结果表明：加油站源谱组成以烷烃（48.4%）占主导,OVOCs （27.6%）占比突出,乙酸乙酯（14.1%）、异戊烷（13.0%）、正戊烷（12.0%）为其优势排放物种;涂料制造、胶黏剂生产、油墨制造、化工制品、纺织印染、医药制造行业排放组成均以OVOCs （42.3%~97.1%）占主导,丙酮为大多数行业的优势物种,且乙腈在部分行业中占比突出.垃圾发电行业以OVOCs （33.9%）和卤代烃（28.3%）占主导,乙醛（13.4%）、丙酮（11.0%）、一氯甲烷（6.1%）为该行业排放的优势物种.以PM_2.5和O₃协同控制为导向,芳香烃和烯烃是储存运输源需要控制的重点;OVOCs和芳香烃都应成为工艺过程源和废弃物处理源控制的关键.涂料制造行业的源反应活性SR_O3和SR_SOA值分别为6.0g/g和1.2g/g,削减单位质量排放的VOCs所减少的PM_2.5和O₃生成潜势最多,应成为深圳市PM_2.5和O₃协同控制下的优先控制行业.