南海海洋环境下机载电子设备的腐蚀及外场防护对策

针对南海海洋大气环境下机载电子设备腐蚀故障率较大的问题,对现役飞机机载电子设备材料体系、外场故障现象及腐蚀机理进行了系统分析。结果表明,电子设备及其元器件受到微量的腐蚀就会对其功能、性能产生较大的影响,现役飞机电子设备的三防设计无法满足南海严酷的环境适应性要求,开展综合环境加速试验技术、微腐蚀机制及电信号传输与腐蚀间的对应关系等关键技术研究,是今后的重点研究方向。最后结合腐蚀原因和特点,给出了飞机外场具体腐蚀防护对策。     

电路板的大气污染物典型腐蚀分析及防护

目的 解决电路板在大气污染物环境下的腐蚀失效问题,提升电路板在大气污染环境中的适应性。方法 从器件选型角度,结合厚膜电阻和SMD LED两种电路板典型腐蚀失效案例,利用金相显微镜和扫描电子显微镜对腐蚀部位形貌分析,利用EDS能谱分析仪分析腐蚀元素和确定入侵路径。通过现场一年的应用对比验证,评价不同封装结构物料的抗腐蚀能力。从电路板涂覆涂层角度,利用恒定盐雾和交变盐雾对比试验,评价不同工艺参数涂层的抗腐蚀能力。结果 通过对厚膜电阻和SMD 硅胶封装LED失效样品的分析,硫元素从器件封装靠近镀银构件结构的薄弱点入侵,生成AgS,最终导致器件失效。带有抗硫化镀层的厚膜电阻和环氧树脂封装LED可以有效切断空气中硫元素的入侵路径,避免腐蚀失效发生。另一方面,通过168 h恒定盐雾和144 h交变盐雾试验结果的分析,随着涂覆厚度和材料黏度的增加,样品的抗盐雾能力得到有效提升,器件引脚位置得到更好的防护。结论 通过改变器件封装、增加涂层涂覆的厚度和材料黏度可以有效提高电路板抗大气污染物腐蚀的能力。该研究对电路板防腐蚀物料选型和涂层工艺参数选择提供了参考。     

大气PM2.5中水溶性离子在线观测技术的应用研究

为了解北京大气PM2.5污染状况,评估大气细颗粒物快速捕集-化学成分在线分析系统(RCFP-IC)在追踪污染生成-消散过程中的适用性,于2011年3月对北京PM2.5中NO3-、SO24-、NH4+和Cl-这4种污染型水溶性离子浓度变化进行了连续高时间分辨率观测,并结合同期气象要素的变化,探讨了污染过程形成的原因.结果表明,一个月的观测期内捕捉到了5次较为明显的污染过程,4种水溶性离子的浓度变化趋于一致,并呈现出典型的"慢积累、快清除"的锯齿型污染物浓度时间序列变化特征.NO3-和NH4+在典型污染事件中峰值浓度是清洁时期浓度的10倍以上,而SO24-和Cl-污染峰值浓度仅为清洁时期的2～4倍.停暖后4种离子浓度较采暖期下降了15%～60%.RCFP-IC与高分辨率飞行时间气溶胶质谱(HR-TOF-AMS)同期观测结果变化趋势具有高度的一致性,但RCFP-IC定量水溶性离子浓度更为准确.     

不同城市功能区地表灰尘Pb水平及粒级行为——以贵阳市为例

本文以我国西南贵州省会城市贵阳为例,对地表按城市功能分区采集灰尘样品,从不同功能区灰尘Pb总量和不同粒级灰尘Pb含量及贡献两个角度探析城市功能对地表灰尘Pb的影响。研究表明,贵阳市地表灰尘Pb平均含量为93.2mg/kg。商贸区和交通区地表灰尘Pb离散度较小,工业区和垃圾站地表灰尘Pb分异较大,住宅区、广场和学校灰尘Pb数据离散度处于中间水平。不同功能区地表灰尘Pb水平存在较大差异,工业区地表灰尘Pb含量显著高于商贸区和垃圾站;广场和学校地表灰尘Pb含量显著高于商贸区和交通区;住宅区Pb含量显著高于交通区。城市功能区从功能和地理位置两个方面影响城区地表灰尘Pb水平。各功能区地表灰尘不同粒级颗粒物中Pb含量存在较大差异,但所有区域地表灰尘中<250μm粒级颗粒物对地表灰尘Pb的贡献基本达到80%。     

珠三角夏秋季节大气颗粒物与碳黑气溶胶污染特征的研究

以珠三角地区4个区域监测站2012年夏秋季节监测结果为例,分析该地区不同粒径大气颗粒物（PM10／PM2．5／PM1）和碳黑气溶胶（BC）质量浓度的变化特征。结果显示,区域内不同站点之间或站点不同粒径颗粒物之间均有显著的相关性,该地区PM,和BC质量浓度约占PM2．5的70％和8．2％,PM1,约占PM10的68％。秋季污染天气中,PM1质量浓度的增长量大于其他粒径颗粒物的增长量。颗粒物浓度与大气能见度的影响分析显示,碳黑气溶胶质量浓度增大与能见度降低关系密切。     

乌鲁木齐河源冰川径流中总可]溶性固体和悬浮颗粒物的特征及影响因素分析

通过对天山乌鲁木齐河源1号冰川进行连续4年(2004-2007年)冰川融水径流观测取样,应用数理统计、不同参数和模型比较等方法,对径流中总可溶性固体(TDS)和悬浮颗粒物(SPM)的特征及影响因素进行分析研究.结果表明,总体上冰川区径流中TDS和SPM与其它区域相比浓度较低,且随时间变化明显.TDS年际变化较小,年内变...     

不同粒径土壤中重金属的分布规律

本文选择提钒炼钢厂内部分土壤为研究对象,测定了重金属元素（镉、铜、铬、铅、锌）的含量,并与样品粒度大小的关系进行了探讨,结果表明金属（铜、铬、铅、锌、镉）的浓度最大值出现在粒径较小（100目或160目）的样品中,同时将测定结果与土壤环境质量标准比较,结果表明镉、锌存在污染,其余元素均未超标。     

Column Flotation Deinking: State-of-the-art and opportunities

Flotation is a critical process step for ink removal from recycled paper. Column flotation is a specific form of flotation that has grown in popularity recently. Extensive efforts during the past four decades to improve the flotation deinking operation sought an optimum blend of technological parameters, physico-chemical aspects and economical process conditions. With increasing demand to recover and recycle waste paper due to ecological and economical concerns, there is a need for an improved process and therefore for in-depth understanding of the mechanism and fundamental factors involved in the efficiency and economics of the deinking process. This paper reviews the progress made in the last decade (2000–2010) in deinking hydrodynamics, various measurement techniques, scale-up and design criterion.     

Evaluation of the influence of El Niño–Southern Oscillation on air quality in southern China from long-term historical observations

•Strong ENSO influence on AOD is found in southern China region. •Low AOD occurs in El Niño but high AOD occurs in La Niña events in southern China. •Angstrom exponent anomalies reveals the circulation pattern during each ENSO phase. •ENSO exerts large influence (70.5%) on annual variations of AOD during 2002–2020. •Change of anthropogenic emissions is the dominant driver for AOD trend (2002–2020). Previous studies demonstrated that the El Niño–Southern Oscillation (ENSO) could modulate regional climate thus influencing air quality in the low-middle latitude regions like southern China. However, such influence has not been well evaluated at a long-term historical scale. To filling the gap, this study investigated two-decade (2002 to 2020) aerosol concentration and particle size in southern China during the whole dynamic development of ENSO phases. Results suggest strong positive correlations between aerosol optical depth (AOD) and ENSO phases, as low AOD occurred during El Niño while high AOD occurred during La Niña event. Such correlations are mainly attributed to the variation of atmospheric circulation and precipitation during corresponding ENSO phase. Analysis of the angstrom exponent (AE) anomalies further confirmed the circulation pattern, as negative AE anomalies is pronounced in El Niño indicating the enhanced transport of sea salt aerosols from the South China Sea, while the La Niña event exhibits positive AE anomalies which can be attributed to the enhanced import of northern fine anthropogenic aerosols. This study further quantified the AOD variation attributed to changes in ENSO phases and anthropogenic emissions. Results suggest that the long-term AOD variation from 2002 to 2020 in southern China is mostly driven (by 64.2%) by the change of anthropogenic emissions from 2002 to 2020. However, the ENSO presents dominant influence (70.5%) on year-to-year variations of AOD during 2002–2020, implying the importance of ENSO on varying aerosol concentration in a short-term period.     

Particle-bound polycyclic aromatic hydrocarbons in typical urban of Yunnan-Guizhou Plateau: Characterization,sources and risk assessment

• The sampling was conducted in city on the Yunnan-Guizhou Plateau for one year. • The groups of PAHs revealed their different environmental fates and migration paths. • Seasonal biomass burning could affect the concentration by long-distance transport. • Industrial sources and traffic emissions were the main contributor of PAHs. • Living in industrial areas or winter had higher health risk by exposure PAHs in PM_2.5. Monthly particle-phase ambient samples collected at six sampling locations in Yuxi, a high-altitude city on the edge of Southeast Asia, were measured for particle-associated PAHs. As trace substances, polycyclic aromatic hydrocarbons (PAHs) are susceptible to the influences of meteorological conditions, emissions, and gas-particulate partitioning and it is challenging job to precise quantify the source and define the transmission path. The daily concentrations of total PM_2.5-bound PAHs ranged from 0.65 to 80.76 ng/m³, with an annual mean of 11.94 ng/m³. Here, we found that the concentration of PM_2.5-bound PAHs in winter was significantly higher than that in summer, which was mainly due to source and meteorology influence. The increase of fossil combustion and biomass burning in cold season became the main contributors of PAHs, while precipitation and low temperature exacerbated this difference. According to the concentration variation trend of PM_2.5-bound PAHs and their relationship with meteorological conditions, a new grouping of PAHs is applied, which suggested that PAHs have different environmental fates and migration paths. A combination of source analysis and trajectory model supported local sources from combustion of fossil fuel and vehicle exhaust contributed to the major portion on PAHs in particle, but on the Indochina Peninsula the large number of pollutants emitted by biomass burning during the fire season would affect the composition of PAHs through long-range transporting. Risk assessment in spatial and temporal variability suggested that citizens living in industrial areas were higher health risk caused by exposure the PM_2.5-bound PAHs than that in other regions, and the risk in winter was three times than in summer.