凝结核粒子计数器的研究及校准技术现状
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TH89

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国家重点研发计划(2017YFF0205303)项目资助


Research and calibration technology of condensation particle counter
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    摘要:

    凝结核粒子计数器(CPC)是针对亚微米及纳米量级气溶胶颗粒的检测仪器,其在环境监测、气象研究等领域有重要应 用。 国际上有少部分机构已经实现了 CPC 的规模化生产,而国内的相关研究却相对滞后。 本文基于国内外学者对于 CPC 的研 究成果,讨论了近 40 年 CPC 的发展历程。 我们介绍了不同种针对 CPC 结构的优化方案,并围绕生长温度、颗粒浓度、工作液性 质等参数对 CPC 检测性能的影响进行了探讨。 发现鞘流的加入可以显著降低 CPC 的切割粒径,工作液的性质直接决定了 CPC 的计数效率,合理控制冷凝器和饱和器的温差以及颗粒浓度也对 CPC 计数效率有改善作用。 随后介绍了几种主流的 CPC 校准 装置以及校准技术,并对比分析了其优劣性;最后讨论了不同类型 CPC 的测试性能以及主要应用。

    Abstract:

    Condensation particle counter (CPC) is a kind of instrument for detecting submicron and nanometer aerosol particles, which has important applications in environmental monitoring and meteorological research. Some international institutions have realized the mass production of CPC. However, the relevant research in China lags behind. Based on the research results of domestic and foreign scholars on CPC, this paper discusses the development of CPC in the past 40 years. Different optimization schemes for CPC structure are introduced, and the influence of growth temperature, particle concentration and working fluid properties on the performance of CPC detection is discussed. It is found that the addition of sheath flow can significantly reduce the cutting particle size of CPC. The properties of working fluid directly determine the counting efficiency of CPC. Reasonable control of temperature difference between condenser and saturator and particle concentration can also improve the counting efficiency of CPC. After that, several mainstream CPC calibration devices and calibration technologies are introduced, and their advantages and disadvantages are compared. Finally, the test performance and main applications of different types of CPC are discussed.

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郭皓天,韩晓霞,刘俊杰,余来华,肖 骥.凝结核粒子计数器的研究及校准技术现状[J].仪器仪表学报,2021,(7):1-13

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  • 在线发布日期: 2023-06-28
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