1) thermophoretic deposition
热泳沉降
1.
Analysis the mechanism of thermophoretic deposition, turbulent deposition and the re-entrainment of soot particle may bring much more profound understanding of the characteristic of particle movement in exhaust pipe, and also provide a new way for soot particle control, particle purification and impro.
对柴油机排气微粒的热泳沉降、湍流脉动沉降以及沉降微粒的再悬浮机理的研究,有助于加深对排气管内微粒运动特性的理解,为柴油机微粒沉降的控制、微粒的净化以及微粒分布的改善提供一条有效的途径。
2) thermophoresis
热泳
1.
Technical study on removing inhaled PM 2.5 by using thermophoresis in annular channel with turbulent flow;
湍流环形通道热泳脱除可吸入颗粒物技术研究
2.
Study on feasibility of removing inhalable particle (PM_(2.5)) by using thermophoresis in microchannels;
应用微通道热泳脱除可吸入颗粒物的可行性研究
3.
Study on Deposition Characteristics of Diesel Engine Particles under Thermophoresis Force in Cooling Tube;
热泳力作用下柴油机微粒在冷却通道中沉降规律研究
3) thermophoretic deposition
热泳沉积
1.
By programming,and using thermophoretic depositionmodel,the thermophoretic deposition efficiency of the aerosol inside the containment,under various temperatures,pressures and particles diameter during severeaccidents of the pressurized water reactor was calculated.
通过编制程序,采用热泳沉积模型,计算严重事故工况下不同温度、压力、粒径时安全壳内气溶胶的热泳沉积效率。
4) thermophoretic force
热泳力
1.
Analytical results are presented concerning the thermophoretic force acting on a spherical nonevaporating or evaporating particle suspended near a planar wall for the free-molecule regime.
本文给出了自由分子流区作用在壁面附近蒸发及未蒸发颗粒上的热泳力的分析结果。
5) thermophoresis of particle
微粒热泳
补充资料:微粒热泳
分子式:
CAS号:
性质:气溶胶中的微粒在温度场的作用下,会产生热泳。即在气体介质中,如果有温度梯度存在,微粒就会受到由热侧指向冷侧的力的作用。热区介质分子运动剧烈,单位时间碰撞微粒的次数较多,而冷区介质分子碰撞微粒次数较少,两侧分子碰撞次数和能量传递的差异,就会使微粒产生由高温区向低温区运动。这一现象称为热泳或温度泳。
CAS号:
性质:气溶胶中的微粒在温度场的作用下,会产生热泳。即在气体介质中,如果有温度梯度存在,微粒就会受到由热侧指向冷侧的力的作用。热区介质分子运动剧烈,单位时间碰撞微粒的次数较多,而冷区介质分子碰撞微粒次数较少,两侧分子碰撞次数和能量传递的差异,就会使微粒产生由高温区向低温区运动。这一现象称为热泳或温度泳。
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