路与路强乘积的最小直径定向

给定一个无向图G，将G的每条边{xy}．用弧xy或yx替代得到的有向图称为G的的定向图。使得G的所有定向图中直径最小的定向图称为G的最小直径定向。文章给出了两条路强乘积的最小直径定向。     

树状管网技术经济计算分析

通过对目标函数(年费用折算值)W0在水力约束条件下最小值的分析计算,介绍了起点水压未知树状管网技术经济计算的方法,并求出了相应的经济水头损失hij和经济管径Dij的表达式。     

3族新的不含紧优与几乎紧优的有向双环网络无限族

给出了3族新的不含紧优与几乎紧优的有向双环网络.     

牛顿环实验中的误差分析

本文对牛顿环测透镜曲率半径实验中引起误差的各种原因进行分析讨论，指出了误差的主要来源及比较完善可行的处理方法。     

k-紧优有向双环网络无限族的构建

本文给出了一种方法用于构造k-紧优双环网络无限族(k≥1),并用此方法构造出了4族3-紧优无限族,3族新的4-紧比无限族,3族5-紧优无限族及2族6-紧优无限族．     

覆冰地区分裂与扩径导线表面电场特性

输电线路覆冰对电力系统安全运行具有严重威胁,目前已经发展了多种防冰除冰方法,但每种方法都有其局限性,对于一些具有微气象、微地形特征的重覆冰地区尚未有较好的解决方法。文中考虑到扩径导线的特点和分裂导线输电线路的局限性,根据波阻抗和自然功率将分裂导线等效为单导线,并考虑电流的集肤效应,得到了等效的单根扩径导线,进而分析比较覆冰地区的分裂导线及其等效的单根扩径导线的表面电场特性。研究表明：等效前后导线截面面积相同且波阻抗一致时,扩径导线与分裂导线相比,不仅显著降低了子导线根数和输电线路的覆冰荷载,而且在扩径导线的半径等于分裂导线的等效单导线半径时,扩径导线的表面最大电场强度小于分裂导线。因此,在严重覆冰地区,采用分裂导线等效半径的扩径导线具有非常好的表面电场特性,且可显著降低冰风荷载,提高抗冰强度。     

旋风除尘器内锥形扩口芯管对其性能的影响分析和实验研究

用平衡粒径模型分析了旋风除尘器内常用的柱菜芯管结构存在的缺陷,提出了用带锥形扩口和十字板的芯管改进旋风除尘器的内部芯管结构,并用实验研究测得了新型结构减阻效的幅度。     

相分离聚合法:(Ⅰ)羧酸型共聚功能微球的合成

粒径在微米级、粒度分布窄的高分子微球具有十分广泛的应用。但是由于这样规格的微球正是在一般的悬浮聚合和乳液聚合的合成范围之外,而采用二步聚合法和种子聚合法则不是需要使用特殊的反应装置,就是合成步聚十分繁复,因此至今对于这样规格高分子微球的报道不多。     

The effect of capillary column diameter on the performance of thermal conductivity detectors

The concentration sensitivity of a thermal conductivity detector (TCD) depends, among other factors, on the amount of sample mixture in the detector's sensing cell. Since the cell volume has to be appropriately matched with column diameter, it makes the concentration sensitivity of a TCD dependent on column diameter and, therefore, on the speed of gas chromatography. Through reduction of column diameter, higher speed tends to lead to a reduction in the concentration sensitivity of the cell. The factor which the most directly affects the concentration sensitivity of a TCD cell is the heat power conducted through the cell. The higher the power, the greater the sensitivity. The limit of detection of a TCD depends on the concentration-sensitivity of its cell and on the level of statistical errors in the measurement. The errors increase with increasing analysis speed. As the column diameter is reduced, the errors cause additional worsening (on top of the decrease in concentration sensitivity) of the detection limit, dynamic range, and other performance characteristics of the TCD.     

Monte—Carlo model of the diffusion-limited reaction kinetics in microheterogeneous media. Comparison with the experimental plots of the forward and backward electron phototransfer kinetics on the pore diameter in silica gel

The kinetics of the diffusion-limited decay reaction A + B B was simulated by the Monte—Carlo method on a two-dimensional square lattice with defects presented by randomly distributed sites. The cases were considered where [B] [A] at the random initial distribution (quenching reaction) and [B] = [A] with the initial distribution of the A and B particles on neighboring sites (geminate recombination). The kinetic curves were approximated by the simplest analytical equation [A]/[A]₀ = (1 – )exp[–(kt)^1–h ] + (where k and are constants). The plots of the heterogeneity parameter (h) and time-averaged first-order rate constant vs. concentration of defects (p) or B particles (in the case of quenching) were obtained and compared with similar correlations obtained earlier by the experimental study of the kinetics of forward (quenching reaction) and backward (geminate recombination) electron phototransfer on the surface of different porous silica gels. The experimental plots of h vs. silica gel porosity are in satisfactory agreement with the plots of h vs. p in the model space, if the fraction of volume inaccessible for reactants, calculated from the free silica gel volume, is chosen as the p parameter for silica gel.Published in Russian in Izvestiya Akademii Nauk. Seriya Khimicheskaya, No. 8, pp. 1536–1541, August, 2004.