电荷分离取决于摩擦带电颗粒材料中的颗粒大小。

Charge segregation depends on particle size in triboelectrically charged granular materials.

作者信息

Forward Keith M, Lacks Daniel J, Sankaran R Mohan

机构信息

Department of Chemical Engineering, Case Western Reserve University, Cleveland, Ohio 44106, USA.

出版信息

Phys Rev Lett. 2009 Jan 16;102(2):028001. doi: 10.1103/PhysRevLett.102.028001.

DOI:10.1103/PhysRevLett.102.028001

PMID:19257320

Abstract

Experiments are carried out to examine triboelectric charging in granular systems composed of particles that are chemically identical but differ in size. A methodology is developed so that only particle-particle interactions (but not particle-wall interactions) contribute to the charging. Since all particles are chemically identical, there is no apparent driving force for charge transfer, but charging occurs nonetheless, such that smaller particles tend to charge negatively while larger particles tend to charge positively. For bimodal systems, a model for the frequency of collisions of particles with different size predicts the concentrations for which the observed charge segregation is maximized.

摘要

开展实验以研究由化学性质相同但尺寸不同的颗粒组成的颗粒系统中的摩擦起电现象。开发了一种方法，使得只有颗粒 - 颗粒相互作用（而非颗粒 - 壁面相互作用）对充电有贡献。由于所有颗粒化学性质相同，电荷转移没有明显的驱动力，但仍然会发生充电现象，使得较小颗粒倾向于带负电，而较大颗粒倾向于带正电。对于双峰系统，一个关于不同尺寸颗粒碰撞频率的模型预测了观察到的电荷分离最大化时的浓度。

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电荷分离取决于摩擦带电颗粒材料中的颗粒大小。

Charge segregation depends on particle size in triboelectrically charged granular materials.

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