石墨烯纳米结构中的Aharonov-Bohm效应和输运性质

M. Lungu, R. Giugiulan, A. Lungu, M. Bunoiu, A. Neculae
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引用次数: 0

摘要

摘要:本文研究了利用介质电泳分离悬浮纳米颗粒来改善烟气过滤过程的可能性。研究的重点是平均半径约为50 ~ 150nm的颗粒,这些颗粒无法通过传统技术过滤,但对环境和人体健康有有害影响。对某危险废物焚烧厂烟气过滤器收集的纳米颗粒粒径分布进行了评价。基于获得的实验数据和建立的数学模型,采用有限元方法对微流控分离装置内烟气中悬浮纳米颗粒的浓度分布进行了数值模拟分析。该装置的性能描述了三个新的具体数量有关的分离过程,即回收率,纯度和分离效率。仿真结果可为分离过程提供最优控制参数,为设计纳米颗粒与燃烧气体分离的微流控装置提供参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Aharonov-Bohm Effect and Transport Properties in Graphene Nanostructures
Abstract This paper investigates the possibility to improve the filtering process of flue gas by separation of suspended nanoparticle using dielectrophoresis. The study focuses on the particles having an average radius of about 50-150 nm, that cannot be filtrated by classical techniques but have a harmful effect for environment and human health. The size distribution nanoparticles collected from the flue gas filters of a hazardous waste incinerator plant were evaluated. Based on obtained experimental data and a proposed mathematical model, the concentration distribution of nanoparticle suspended in flue gas inside a microfluidic separation device was analyzed by numerical simulations, using the finite element method. The performances of the device were described in terms of three new specific quantities related to the separation process, namely Recovery, Purity and Separation Efficiency. The simulations could provide the optimal values of control parameters for separation process, and aim to be a useful tool in designing microfluidic devices for separating nanoparticle from combustion gases.
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