实验室太阳辐射试验中温度测量的分析

按GJB 150.7-1986中稳态长期光化学效应的试验要求,对线缆样件进行了实验室太阳辐射试验。温度测量结果显示,样件的附加温升显著,且内部存在热梯度。     

一种具有谐振特性的左手材料结构设计与仿真

文章提出了一种具有谐振特性的左手材料结构单元。该结构基于谐振型左手材料理论设计,使用CST电磁仿真软件,分析了该材料结构的谐振特性,并进一步提取出该材料的等效介电常数、等效磁导率和波矢量。结果表明,在4个结构单元条件下,该结构在X波段10.89-11.49GHz范围内出现由谐振特性产生的通带,其中在10.89-11.31GHz内出现右手传输通带以及在11.31-11.49GHz内出现谐振型左手通带。该结构的带通特性,或可在X波段范围内微波器件领域获得广泛应用。     

高频间歇梯度曝气启动短程硝化反硝化除磷颗粒污泥

反硝化除磷与厌氧氨氧化耦合可进一步降低脱氮除磷所需的碳源,而稳定获取NO₂^--N是两工艺独立、联合运行的关键.因此,以低C/N生活污水为研究对象,接种絮状污泥及少量长期贮存的好氧颗粒污泥,采用两段梯度曝气,并控制停曝时间（3min：3min）,即以高频间歇梯度曝气模式,经60d的富集培养,将其诱导成具有短程硝化反硝化除磷功能的颗粒污泥,并分析了此过程中系统脱氮除磷性能变化.结果表明,稳定时期内,颗粒污泥平均粒径达841μm,SVI为31.23ml/g,颗粒结构致密,沉降性能良好.出水NO₃^--N小于0.1mg/L,TP<0.7mg/L,NO₂^--N>15mg/L,实现了P的高效去除和NO₃^--N的积累,并可为后续耦合Anammox提供稳定NO₂^--N基质.批次实验结果表明,颗粒中可利用NO₂^--N为电子受体的DPAOs占达57.63%,其富集提高了系统除磷能力.高频梯度间歇曝气可实现AOB与DPAOs的高度耦合,但仅以间歇曝气难以实现NOB的抑制,后通过在"氨谷点"前段,加入梯度曝气优化实际限氧曝气点,可强化对NOB的抑制,从而实现良好的亚硝酸盐积累.     

Visual determination of nitrite and nitrate in waters by color band formation method

A spot test for aqueous nitrate and nitrite for controlling nitrogen removal performance in small-scale wastewater treatment facilities is proposed. In this method, NO(2)(-) ion in water samples was allowed to react with sulfanilic acid and 1-naphthol to form an anionic azo dye. The resulting colored solution was introduced onto a mini column (similar to a gas detecting tube) packed with PVC particles coated with benzyl cetyl dimethyl ammonium chloride (BCDMA) and biphenyl. The NO(2)(-)-N concentration was determined visually by measuring the color band length (CBL) in the column. The CBL correlates linearly with nitrite concentration in the 4-20 mg-N l(-1) range. The concentration of nitrite+nitrate was determined after reduction to nitrite with zinc. The concentration of NO(3)(-)-N species was calculated by difference. This method was used to visually determine the concentrations of NO(2)(-)-N and (NO(2)(-)+NO(3)(-))-N in domestic wastewater samples with maximum suspended solid (SS) and chemical oxygen demand (COD) concentrations of 114 mg l(-1) and 73.9 mg l(-1), respectively.