利用粒子群算法确定阶段曝气法设计中的泥龄

确定泥龄(SRT)是成功设计活性污泥法的关键,以往的SRT通常根据经验来估算。给出了确定阶段曝气法设置中SRT的一元无约束优化模型,并应用粒子群算法(PSO)求解该优化问题。数值实例结果表明,PSO能精确、快速地求解SRT,为污水处理厂的设计提供了理论依据。     

眼面护具用高速粒子冲击测试仪研制

在从事机械加工建筑施工等作业时，人们常常会受铁屑、泥沙、碎石以及其他异物对面部和眼睛的伤害，常采用带防护眼镜或防护面罩，防止这种伤害：     

吴兑：一种新的灾害性天气——灰霾

在东方文化中,对霾的描述是很早的,在<诗经>中就曾提到过,霾的古义就是尘.在现代科学中,霾实质上就是气溶胶粒子,包括液体、固体和混合物,其中有沙尘粒子、海盐粒子、黑炭粒子、有机碳粒子以及有生物活性的花粉、病毒、病菌等等,这些就组成了霾.     

德国政府投巨资支持新一代粒子加速器建设

近日，德国联邦教研部决定投入5．26亿欧元巨资，支持新一代粒子加速器FAIR反质子与离子研究设施的建设。FAIR是一个国际大科学合作项目，目前已有来自50多个国家的3000多名科学家参与．该加速器建成后将是世界上最大的科研装置之一，     

O_2~+、O_3同时脱硫脱硝实验

针对目前的烟气同时脱硫脱硝方法中存在的投资成本、运行费用、占地面积大等问题,研究强电离放电方法产生高浓度氧活性粒子(O2+、O3)注入烟气外排管道中,进行O2+、O3消除烟气中的NO,SO2转化成HNO3,H2SO4的等离子化学反应.描述强电离介质阻挡放电制取O2+、O3原理和烟道中O2+与H2O反应形成·OH及其氧化脱硫脱硝反应机制,分析回收酸液中的酸根离子种类及浓度.在O2+、O3与NO+SO2的物质的量比为5,烟气温度为65℃,H2O体积浓度为10%,停留时间为1s的实验条件下,脱硝脱硫率分别为97.4%,83.2%.     

Characterization of aerosol optical properties, chemical composition and mixing states in the winter season in Shanghai, China

Physical and chemical properties of ambient aerosols at the single particle level were studied in Shanghai from December 22 to 28, 2009. A Cavity-Ring-Down Aerosol Extinction Spectrometer（CRD-AES） and a nephelometer were deployed to measure aerosol light extinction and scattering properties, respectively. An Aerosol Time-of-Flight Mass Spectrometer（ATOFMS）was used to detect single particle sizes and chemical composition. Seven particle types were detected. Air parcels arrived at the sampling site from the vicinity of Shanghai until mid-day of December 25, when they started to originate from North China. The aerosol extinction,scattering, and absorption coefficients all dropped sharply when this cold, clean air arrived.Aerosol particles changed from a highly aged type before this meteorological shift to a relatively fresh type afterwards. The aerosol optical properties were dependent on the wind direction.Aerosols with high extinction coefficient and scattering Angstrom exponent（SAE） were observed when the wind blew from the west and northwest, indicating that they were predominantly fine particles. Nitrate and ammonium correlated most strongly with the change in aerosol optical properties. In the elemental carbon/organic carbon（ECOC） particle type, the diurnal trends of single scattering albedo（SSA） and elemental carbon（EC） signal intensity had a negative correlation. We also found a negative correlation（r =-0.87） between high mass-OC particle number fraction and the SSA in a relatively clean period, suggesting that particulate aromatic components might play an important role in light absorption in urban areas.     

Characteristics of nanoparticles emitted from burning of biomass fuels

The characteristics of the particles of the smoke that is emitted from the burning ofbiomass fuels were experimentally investigated using a laboratory-scale tube furnace and different types of biomass fuels： rubber wood, whole wood pellets and rice husks. Emitted amounts of particles, particle-bound polycyclic aromatic hydrocarbons （PAHs） and water-soluble organic carbon （WSOC） are discussed relative to the size of the emitted particles, ranging to as small as nano-size （〈70 nm）, and to the rate of heating rate during combustion, differential thermal analysis （DTA） and thermogravimetric analysis （TG） techniques were used to examine the effect of heating rate and biomass type on combustion behaviors relative to the characteristics of particle emissions. In the present study, more than 30% of the smoke particles from the burning ofbiomass fuel had a mass that fell within a range of 〈 100 nm. Particles smaller than 0.43 μm contributed greatly to the total levels of toxic PAHs and WSOC. The properties of these particles were influenced by the fuel component, the combustion conditions, and the particle size. Although TC--DTA results indicated that the heating rate in a range of 10-20℃did not show a significant effect on the combustion properties, there was a slight increase in the decomposition temperature as heating rate was increased. The nano-size particles had the smallest fraction of particle mass and particle-bound PAHs, but nonetheless these particles registered the largest fraction of particle-bound WSOC.     

Graphene TiO2 nanocomposites with high photocatalytic activity for the degradation of sodium pentachlorophenol

A series of graphene–TiO2photocatalysts was synthesized by doping TiO2 with graphene oxide via hydrothermal treatment. The photocatalytic capability of the catalysts under ultraviolet irradiation was evaluated in terms of sodium pentachlorophenol（PCP-Na） decomposition and mineralization. The structural and physicochemical properties of these nanocomposites were characterized by X-ray diffraction, N2adsorption–desorption, transmission electron microscopy, scanning electron microscopy, Ultraviolet–visible diffuse reflectance spectroscopy, X-ray photoelectron spectroscopy, electron paramagnetic resonance spectra, and Fourier-transform infrared spectroscopy. The graphene–TiO2nanocomposites exhibited higher photocatalytic efficiency than commercial P25 for the degradation of PCP-Na, and 63.4% to 82.9% of the total organic carbon was fully mineralized. The improved photocatalytic activity may be attributed to the accelerated interfacial electron-transfer process and the significantly prolonged lifetime of electron-hole pairs imparted by graphene sheets in the nanocomposites. However,excessive graphene and the inhomogeneous aggregation of TiO2 nanoparticles may decrease photodegradation efficiency.