BOD快速测定仪的日常使用与维护

样品浓度影响到微生物膜上菌种的活性。在仪器的适用范围内,菌种活性的变化可分为四个阶段,即2~5mg/L、5~13mg/L、13~30mg/L、30~50mg/L。为了获得样品的准确浓度,需在这四个浓度范围内分别取两点进行点控,样品的精密度变差可以作为更换管路的一个依据。灵敏度下降表明,应该更换微生物膜。     

Closed population estimation models and their extensions in Program MARK

Program MARK provides > 65 data types in a common configuration for the estimation of population parameters from mark-encounter data. Encounter information from live captures, live resightings, and dead recoveries can be incorporated to estimate demographic parameters. Available estimates include survival (S or ϕ), rate of population change (λ), transition rates between strata (Ψ), emigration and immigration rates, and population size (N). Although N is the parameter most often desired by biologists, N is one of the most difficult parameters to estimate precisely without bias for a geographically and demographically closed population. The set of closed population estimation models available in Program MARK incorporate time (t) and behavioral (b) variation, and individual heterogeneity (h) in the estimation of capture and recapture probabilities in a likelihood framework. The full range of models from M ₀ (null model with all capture and recapture probabilities equal) to M _tbh are possible, including the ability to include temporal, group, and individual covariates to model capture and recapture probabilities. Both the full likelihood formulation of Otis et al. (1978) and the conditional model formulation of Huggins (1989, 1991) and Alho (1990) are provided in Program MARK, and all of these models are incorporated into the robust design (Kendall et al. 1995, 1997; Kendall and Nichols 1995) and robust-design multistrata (Hestbeck et al. 1991, Brownie et al. 1993) data types. Model selection is performed with AICc (Burnham and Anderson 2002) and model averaging (Burnham and Anderson 2002) is available in Program MARK to provide estimates of N with standard error that reflect model selection uncertainty.     

圆管压入扩径内径变化分析

分析了圆管压入扩径时内径变化的规律和影响因素.理论分析和实验结果相一致,对实际生产中产品质量的控制有参考价值.     

Reactive shock and detonation propagation in U-bend tubes

The objective of the research outlined in this paper was to provide new experimental and computational data on initiation, propagation, and stability of gaseous stoichiometric propane–air detonations in tubes with U-bends. Extensive experimental and computational studies with the tube 51 mm in diameter with U-bends of two curvatures and two different shock-wave generators were performed. Numerical simulations of the process were used to reveal the salient features of the accompanying phenomena.     

曝气生物滤池应用于封闭循环海水养殖系统的试验研究

曝气生物滤池是封闭循环海水养殖系统的核心设备。现以封闭循环海水养殖系统中的曝气生物滤池为试验研究对象,考察了曝气生物滤池的挂膜过程及NH3-N初始质量浓度、循环流速、溶解氧（D0）、循环时间及温度对NH3-N去除效果的影响。试验表明,该曝气生物滤池的生物膜成熟快,当曝气生物滤池在正常养殖状态时．水的循环流速为130L／h可达到NH3-N最大去除率;水的循环流速为80IA可应对高浓度NH3-N负荷。在污水DO质量浓度为7．0mg／L,温度为34℃时,滤池有最大的NH3-N去除率。     

ICP-OES法测定大气和废气颗粒物中的金属元素

将微波消解法与电感耦合等离子体发射光谱法(ICP-OES)相结合,对大气和废气颗粒物中金属元素的微波消解条件及ICP-OES测定条件进行了优化研究,建立了大气和废气颗粒物中铝(Al)、钡(Ba)、镉(Cd)、铬(Cr)、铜(Cu)、锰(Mn)、钼(Mo)、镍(Ni)、铅(Pb)、锡(Sn)、锶(Sr)及锌(Zn)等金属元素的测定方法。对方法的检出限进行了测定,各元素的检出限均低于0.04 mg/L;对方法的精密度进行了测定,各元素的相对标准偏差在2.59%～7.14%之间;对方法的准确度进行了测定,质控滤膜中各元素的回收率在89.6%~119%之间,颗粒物参考物质中各元素的回收率在85.1%～107%之间,并将该方法成功应用到 TSP、污染源废气实际样品中金属元素的测定。     

Reaction hazards of triethylaluminum under closed conditions

We evaluate the reaction hazards of triethylaluminum (TEA) under closed conditions for safe treatment of aluminum alkyls. The explosive reactions of TEA are difficult to be estimated using thermal analysis because the estimate reactions are too slow under these conditions. The results of our closed vessel tests and chemical equilibrium calculations show that the TEA and water system mixture in closed conditions decomposes into lower-molecular-weight compounds than the products by using well-known hydrolysis of TEA. The present work also demonstrates that large temperature and pressure increases could occur because of the existence of TEA and aluminum hydroxide. Since aluminum hydroxide contains water as alumina hydrates, aluminum hydroxide could have been the source of water at high temperatures and could have contributed to the mixed reaction between TEA and water.     

Experimental study of the influence of particle size on Minimum Explosible Concentration of sulfur dust

Despite the extensive use of sulfur in the industry, very little information is available in the literature on its key dust explosion properties. The work presented in this paper contributes to filling the current knowledge gaps on sulfur dust explosion properties and focuses on the experimental determination of the MEC of sulfur dust using a Modified Hartmann Tube and a 20 L dust explosion sphere. First, the MEC of sulfur dust samples collected at a sulfur production facility from areas prone to the generation of fine sulfur dust was measured. The results showed that these sulfur dust samples are fine enough to cause dust explosions with 55 ± 5< MEC <105 ± 5 g/m³. Second, the influence of the particle size of sulfur dust was investigated with both equipment. The use of the Modified Hartmann Tube for MEC determination showed that the MEC increases with increasing particle size in the particle size range of 0–2000 μm. Unlike the Modified Hartmann Tube, MEC experiments done in the 20 L Sphere did not allow the quantification of the influence of the particle size on the MEC. These results were explained by the phenomenon of particle breakage induced by the 20 L Sphere's dispersion mechanism. Additional experiments with the 20 L sphere confirmed the particle breakage of sulfur dust particles and showed that it is inversely proportional to dust concentration and proportional to the dust's original particle size distribution.