共查询到10条相似文献,搜索用时 46 毫秒
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采用微观可视化的高速摄像技术直接观察了燃烧源亚微米颗粒物间的相互作用形态,发现了亚微米颗粒间存在“吸引-旋绕-排斥”形态的相互作用。通过颗粒受力分析,认为传统所考虑的曳力、重力、库仑力、范德华力不能解释这种相互作用.根据亚微米颗粒荷电的不均匀性特征提出颗粒静电力应包括净电荷库仑力和感应偶极子间作用力两部分.感应偶极子间作用力是近程力,具有径向和周向两个方向,在颗粒比较接近的时候迅速增大,并能导致颗粒之间相互旋绕和排斥。该力与上述几种力综合起来可以很好地解释实验发现的这种颗粒相互作用形态。 相似文献
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用傅里叶变换红外光谱法研究了稀土离子Nd^3+,Gd^3+和Yb^3+与二棕榈酰磷脂酰胆碱脂质体的相互作用。结果表明这三种稀土离子的掺入都使磷脂的凝胶-液晶相转变温度明显升高,同时相变的协同隆降低。稀土离子与磷脂极性头部的PO2^-基团产生了键合作用,这种键合稳定,不受磷脂质体相态的影响。无论在凝胶相或液晶相,稀土离子的掺入都增加了磷脂双分子层的构象有序度。 相似文献
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球形微粒子近场辐射换热研究 总被引:1,自引:0,他引:1
从偶极辐射理论出发,结合普朗克黑体辐射分布,推导出近场区热辐射分布。采用MC法模拟了两个纳米球形 村子的辐射换热,考察相天参数对近场辐射换热的影响。表明其辐射热流可比黑体辐射高8个数量级。其热流随间距的增 大急剧减小。小研究对于纳米粒子群的传热研究有积极意义。 相似文献
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燃煤细微颗粒声波团聚的机理研究 总被引:1,自引:0,他引:1
采用声波团聚疗法促使燃煤电厂产生的细微烟尘颗粒在较高强度下的声场巾团聚为较大颗粒,以此提高除尘器对细微颗粒的脱除效率.建立了以同向凝聚和流体力学作用为机理的烟尘气溶胶声波团聚动力学模型,经过数值模拟求解得到烟尘粒子团聚后的再分布曲线.模拟计算结果与声压(SPL)为130~150 dB,频率为1000~4000 Hz,烟尘浓度为2~10g/m3条件下的团聚实验相比较,得到较好的吻合.当声压SPL增加时,PM10和PM2.5质量百分比相对于初始分布均有明显下降,表明细微颗粒的团聚效果明显. 相似文献
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本文研究了核子电磁结构对Weizs?cker-Williams等价光子谱理论的影响。为了克服Clementel-Villi型形式因子所导致的发散困难,提出了对这个形式因子的修改。计算的结果表明,在等价光子谱方法适用的范围内,碰撞的两个粒子,如果质量相差悬殊,主要还是W-W的结果。但在两粒子质量相近时,结构的影响就很明显。 相似文献
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柱状粒子沉降的数值模拟 总被引:3,自引:0,他引:3
通过对基于柱状粒子振荡频率ω而建立的粒子受力方程和力矩公式修正,得到粒子在静水中沉降的控制方程。用该方程求解长径比在0.1~10范围内沿轴向和垂直轴向运动的粒子的Stokes沉降速度,以及任意初始倾角高频振荡粒子沉降速度和倾角随时间的变化。所得结果与实验数据吻合较好。 相似文献
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Okubo Toru Chujo Shigeki Maenosono Shinya Yamaguchi Yukio 《Journal of nanoparticle research》2003,5(1-2):111-117
We have investigated the effect of inter-particle repulsion and particle–substrate interaction on the microstructure of silica particle monolayer films fabricated by an evaporation-induced self-assembly method as a function of surface coverage. Suspensions of mono-dispersed colloidal silica particles (106 nm diameter) without binders cast on PET substrates by bar coating were evaporated under a fixed condition to give two-dimensional particle films. The inter-particle repulsion was controlled by zeta potential of the particle suspensions. The particle–substrate interaction was varied by the surface treatment of the substrates by argon radio frequency plasma. The self-assembled microstructure was observed by atomic force microscopy (AFM) and quantitatively evaluated by Voronoi analysis in terms of particle order and domain quality. In all the conditions attempted, the microstructure improved with the increase of surface coverage (C). However, little difference in the correlation between C and the microstructure due to the experimental conditions was observed until C reached about 0.6, where both particle order and domain quality of more inter-particle repulsion (higher absolute value of zeta potential) began to exceed those of less inter-particle repulsion only when the substrates with less particle–substrate attraction (substrates with no surface treatment) were used. These results were consistent with the AFM observation. By considering a feasible model for the process, it could be inferred that the microstructure dependence on the inter-particle repulsion originated from a leap in the frequency of inter-particle collision at a critical value of C (=49/750.65 in the model). We found that stronger inter-particle repulsion and weaker particle–substrate attraction were preferable for the better microstructure above the critical C of about 0.6. 相似文献