摩托车防护头盔发展现状和展望分析

当今保护人类健康安全日益受到社会普遍重视,头部安全是摩托车乘员的首要问题。摩托车头盔防护依然十分重要;国际上其标准修定较快并不断完善;通过对TBT通报,头盔安全类发明专利等数据分析,得出摩托车头盔的技术研发高峰近期爆发。     

航电电源板层间CAF短路失效机理及退化时间分析

目的 掌握CAF失效机理MTTF分析方法,以便于在实际案例中实施工程优化决策,从而降低故障危害风险和寿命周期总费用。方法 以某航电电源母板CAF失效为例,基于CAF失效机理的物理化学变化时间特性模型算法,建立电压、介质间距和MTTF变化关系,以辅助工程优化决策。结果 基于仿真计算数据,形成对特定范围产品的改进和处置决策,从而限制失效危害风险的进一步扩散,降低了产品生命周期维护费用,并提升了客户满意度。结论 掌握装备常见失效机理和采取适宜的应对措施,是持续改进装备可用性、可靠性和环境适应性的必要条件。     

苏南地区农村宅基地转型研究：基于利用状态的视角

农村宅基地转型是土地利用转型研究的重要内容。目前学界关于宅基地转型的研究主要集中在规模结构等显性形态方面,对隐性转型的研究仍较欠缺。以乡村经济发达的苏南地区为例,通过对正常使用、空置、废弃等不同利用状态宅基地空间分异规律的刻画,探索其功能转型的一般规律,并进一步分析宅基地空置与废弃的影响因素。结果表明：在乡村振兴战略实施背景下,“房子不用来住”的问题在农村地区同样存在,而且在不同代际和空间区位上农村宅基地的利用状态有所差异。具体地,1980年以前的老宅基地从距离城镇较远和较近的“两端”开始,其空废比率向中间地带递减;随着市场化和城镇化水平提升,1980—2000年的中龄宅基地空废比率呈现由近郊向外递减的趋势,城镇化影响下的距离衰减规律明显。近年来,伴随农村宅基地财产/资产属性的逐步显现,农村宅基地的利用状态与空间区位之间的关联关系弱化。2010年以后新宅基地的空置率出现反弹,尤其靠近城镇的农村地区“囤地”现象严重,发端于城镇地区的“地产霸权”正在向乡村地区蔓延。     

基于二次铝灰的地聚反应稳固化垃圾飞灰

基于工业生产铝过程中回收的二次铝灰（SAD）的地质聚合反应,提出了一种稳固化城市生活垃圾焚烧飞灰（MSWIFA）的新方法,分析硅铝物质的量之比对飞灰中重金属浸出浓度及地聚物固化体力学性能的影响规律.结果表明,当硅铝物质的量之比小于2.5时,二次铝灰-SiO₂基固化体与偏高岭土-SiO₂基固化体中的重金属浸出浓度均随着硅铝物质的量之比的增加而逐渐降低,2种固化体的抗压强度随着硅铝物质的量之比的增加而增加;硅铝物质的量之比达到2.5时,重金属的浸出浓度与固化体的抗压强度均趋于稳定.XRD分析结果显示,偏高岭土-SiO₂基固化体中聚合物的种类与数量均略高于二次铝灰-SiO₂基固化体.但从重金属的浸出浓度与固化体的抗压强度来看,2类固化体对飞灰中重金属的稳固化效果的差别很小,二次铝灰加上部分硅基材料可以作为偏高岭土的替代品,用于稳固化飞灰重金属的地质聚合反应中.二次铝灰-SiO₂基固化体的抗压强度达到13.65MPa,具备一定的力学性能,可用于部分特定的建筑材料.     

基于成本核算的废旧动力电池回收模式分析与趋势研究

概述了动力电池流向、回收管理体系和回收模式等管理现状,总结提出了以新能源汽车生产企业、动力电池生产企业、第三方综合利用企业和产业联盟为回收主体的四种动力电池回收模式;考虑建设成本、运行维护成本、收集成本、贮存成本、运输成本、人工成本、税收成本、管理成本等8个构成要素,构建了废旧动力电池回收成本模型;核算了四种回收模式的废旧动力电池回收成本和利润情况.核算数据显示,回收1万t/a的废旧动力电池项目,在年总收益均为8500万元的条件下,四种回收模式的利润区间为-461~401万元.结果与趋势分析表明,我国可优先推广新能源汽车生产企业为回收主体的回收模式,便于迅速布局;市场成熟后以动力电池生产企业和综合利用企业为回收主体的模式将进入市场,专业性和技术性将大幅提升;当市场更加成熟,以产业联盟为主体的回收模式将更具优势,回收成本降到最低.综上,建议从避免重复建设,缩短资金周转周期,探索创新模式,构建绿色供应链以及完善回收法律体系等方面入手,进一步完善我国废旧动力电池回收体系.     

A2/O+MBR工艺运行效果与碳排放特征研究

对北京市通州区H再生水厂采用的A²/O+MBR工艺运行效果与不同环节碳排放特征进行研究.结果表明：2018年该再生水厂对BOD₅,COD_cr,NH₄⁺-N,TN和TP的平均去除率分别为97.3%,94.1%,98.6%,77.0%,96.2%;全厂碳排放总量和吨水碳排放量呈春夏季节逐渐降低,秋冬季节缓慢升高的特征,全厂综合吨水碳排放量约为2.26kgCO₂e/t.碳排放总量中能耗碳排放量占主要地位,CH₄,N₂O和物耗碳排放量占比较小;统计分析显示CH₄,能耗和物耗吨水碳排放量与BOD₅,TN进水浓度及BOD₅去除率显著相关;N₂O吨水碳排放量与TN与BOD₅进水浓度显著相关;直接,间接吨水碳排放量与水量无显著相关性.     

EGSB-CANON工艺启动及动力学特性

采用EGSB（Expanded Granular Sludge Bed）反应器,在启动全程自养脱氮（CANON）工艺中通过改变曝气方式以及优化曝气/非曝气逐步实现CANON工艺的稳定运行.通过研究不同曝气/非曝气条件下CANON工艺的脱氮性能的变化,探究系统内不同污泥粒径中功能菌的活性,揭示EGSB反应器不同的运行条件以及系统内不同粒径的微生物聚集体在CANON工艺启动过程中的影响机制与菌群结构特性.结果表明,当恒定曝气量为0.5L/min,曝气/非曝气为2：1（60min：30min）时,实现了AerAOB（Aerobic Ammonia-Oxidizing Bacteria）与AnAOB（Anaerobic Ammonium-Oxidation Bacteria）协同脱氮的目的,并成功将NOB（Nitrite-Oxidizing Bacteria）的活性由3.41mgN/（h·gVSS）抑制到0.75mgN/（h·gVSS）.在对AnAOB的双底物（NO₂^--N和NH₄⁺-N）抑制动力学结果进行Haldane拟合时,得到NH₄⁺-N和NO₂^--N的半饱和常数（k_s）、抑制动力学常数（k_h）分别为106.8,331.9mg/L,272.4,66.61mg/L,相关性系数（R²）分别为0.98133和0.99142.在CANON污泥颗粒化形成过程中,污泥粒径在0.154~0.335mm范围内主要以AerAOB为主,污泥粒径在1mm以上主要以AnAOB为主.不同粒径下微生物聚集体的协同作用以及稳定的群落结构实现了CANON工艺的稳定运行.     

Primary and secondary organic aerosol in an urban/industrial site: Sources, health implications and the role of plastic enriched waste burning

PM10 samples were collected from an urban/industrial site nearby Athens, where uncontrolled burning activities occur. PAHs, monocarboxylic, dicarboxylic, hydroxycarboxylic and aromatic acids, tracers from BVOC oxidation, biomass burning tracers and bisphenol A were determined. PAH, monocarboxylic acids, biomass burning tracers and bisphenol A were increased during autumn/winter, while BSOA tracers, dicarboxylic- and hydroxycarboxylic acids during summer. Regarding aromatic acids, different sources and formation mechanisms were indicated as benzoic, phthalic and trimellitic acids were peaked during summer whereas p-toluic, isophthalic and terephthalic were more abundant during autumn/winter. The Benzo[a]pyrene-equivalent carcinogenic power, carcinogenic and mutagenic activities were calculated showing significant (p < 0.05) increases during the colder months. Palmitic, succinic and malic acids were the most abundant monocarboxylic, dicarboxylic and hydrocarboxylic acids during the entire sampling period. Isoprene oxidation was the most significant contributor to BSOA as the isoprene-SOA compounds were two times more abundant than the pinene-SOA (13.4 ± 12.3 and 6.1 ± 2.9 ng/m³, respectively). Ozone has significant impact on the formation of many studied compounds showing significant correlations with: isoprene-SOA (r = 0.77), hydrocarboxylic acids (r = 0.69), pinene-SOA (r = 0.63),dicarboxylic acids (r = 0.58), and the sum of phthalic, benzoic and trimellitic acids (r = 0.44). PCA demonstrated five factors that could explain sources including plastic enriched waste burning (30.8%), oxidation of unsaturated fatty acids (23.0%), vehicle missions and cooking (9.2%), biomass burning (7.7%) and oxidation of VOCs (5.8%). The results highlight the significant contribution of plastic waste uncontrolled burning to the overall air quality degradation.     

Particle Surface Hydrophobicity and the Dechlorination of Chloro-Compounds by Iron Sulfides

Halogenated aliphatic compounds (HACs) can be reduced by iron sulfides in aqueous systems. Generally, the thermodynamics and kinetics of dehalogenation reactions are controlled by the mineralogical and particle surface characteristics of the iron sulfide, the composition of the HAC and reaction conditions such as component concentrations, pH and Eh. In this theoretical and experimental investigation of CCl₄ and C₂Cl₆ reduction by FeS and FeS₂, the roles of hydrophobic and hydrophilic sites on the iron sulfides were analyzed. Experimental data obtained through zeta potential measurements, were used along with the Gouy-Chapman model and the simple two-layer surface complexation model to relate iron sulfide surface hydroxyl densities to the degree of HAC dehalogenation. The surface hydroxyl site densities of FeS and FeS₂ were found to be 0.11 sites/nm² and 0.21 sites/nm², respectively. During the dehalogenation reaction process, CCl₄ was found to decrease to its first intermediate product CHCl₃ within the first 20 hours followed by a slower process of conversion to CH₂Cl₂. The results also show that FeS is less hydrated (more hydrophobic) than FeS₂. For CCl₄ and C₂Cl₆, FeS is a better dehalogenator than FeS₂. These results imply that particle surface hydrophobicity is a critical factor in surface-mediated dehalogenation of chlorinated compounds.     

Effects of Climate and Land Cover on Hydrology in the Southeastern U.S.: Potential Impacts on Watershed Planning

The hydrologic response to statistically downscaled general circulation model simulations of daily surface climate and land cover through 2099 was assessed for the Apalachicola‐Chattahoochee‐Flint River Basin located in the southeastern United States. Projections of climate, urbanization, vegetation, and surface‐depression storage capacity were used as inputs to the Precipitation‐Runoff Modeling System to simulate projected impacts on hydrologic response. Surface runoff substantially increased when land cover change was applied. However, once the surface depression storage was added to mitigate the land cover change and increases of surface runoff (due to urbanization), the groundwater flow component then increased. For hydrologic studies that include projections of land cover change (urbanization in particular), any analysis of runoff beyond the change in total runoff should include effects of stormwater management practices as these features affect flow timing and magnitude and may be useful in mitigating land cover change impacts on streamflow. Potential changes in water availability and how biota may respond to changes in flow regime in response to climate and land cover change may prove challenging for managers attempting to balance the needs of future development and the environment. However, these models are still useful for assessing the relative impacts of climate and land cover change and for evaluating tradeoffs when managing to mitigate different stressors.