氡室用冷凝式气溶胶发生器的研究

Development of a Condensation Aerosol Generator

下载PDF

导出

摘要单分散性气溶胶发生器是氡室中控制氡子体浓度和平衡因子时必要的仪器。为实现氡室中氡子体浓度的控制和氡子体附着放射性气溶胶行为规律的研究,自行搭建了一套冷凝式气溶胶发生器。该装置主要由喷雾式凝结核发生器、饱和器及再加热冷凝装置组成,可以发生出纯NaCl凝结核、纯DE-HS液滴及NaCl+DEHS混合型气溶胶粒子。实验表明,该装置发生的纯NaCl凝结核和NaCl+DEHS混合型气溶胶粒子可以保证很好的单分散性,而纯DEHS液滴分散性一般较大。改变总的气流量、NaCl溶液浓度、干燥剂用量、饱和器温度、再加热器温度及不同回路分支比可以控制产生不同种类不同粒径分布的气溶胶粒子。实验结果同气溶胶发生的基本理论符合。 Monodisperse aerosol generator is the necessary equipment when controlling the concentration and equilibrium factor of radon daughter in radon chamber. In order to achieve the control of the concentration of radon daughters and the pattern of behavior research which radon daughters attached to radioactive aerosol in radon chamber, this paper set up a condensation aerosol generator. The device consisits of aerosol condensation nuclei generator, saturator and reheating condensation device, and can happen out of pure NaC1 nuclei, pure DEHS droplets and NaC1 ＋ DEHS mixed aerosol particles. Experiments showed that the good monodispersity of pure NaCI nuclei and NaC1 ＋ DEHS mixed aerosol particles can be kept, and pure DEHS droplets dispersed generally higher. Different types and different particle size distribution can be controlled by changing the overall gas flow, the concentration of NaC1 solution, the amount of desiccant, the temperature of saturator, reheater temperature and the different branching ratio. The results may be in line with the basic theory of aerosol generator.

作者刘翠红张燕郭秋菊罗明段再煜闫学昆张磊谷铁男

机构地区海军核化安全研究所北京大学物理学院技术物理系

出处《核电子学与探测技术》 CAS CSCD 北大核心 2012年第11期1283-1288,共6页 Nuclear Electronics & Detection Technology

关键词气溶胶发生器冷凝式单分散性粒径分布浓度 aerosol generator condensation - type monodisperse particle size distribution concentration

分类号 TL72 [核科学技术—辐射防护及环境保护]

引文网络
相关文献

参考文献13

1UNSCEAR. Sources and effects of ionizing radiation[R].Sweden:UNSCEAR,2000.
2Porstendorfer J,Reineking A. Indoor behavior and characteristics of radon progeny[J].Radiation Protection Dosimetry,1992,(01):303-311.
3Cheng.Y.S,Chen.B.T. Aerosol sampler calibration[M].In air sampling instruments Committee,Cincinnati:ACGIH.Inc,2008.165-186.
4Fuchs N.A,Sutugin A.G. Aerosol Science[M].London,UK:Academic Press,1966.1-31.
5Mercer T. Production and characterization of aerosols[J].Archives of Internal Medicine,1973,(I):39-50.
6Raabe,O. The generation of aerosols of the fine partioles In Fine Particles:Aerosol Generation,Measurement,Sampling and Analysis[M].New York:Academic Press,Inc,1976.57-110.
7Sinclair,D,LaMer,V. Light scattering as a measure of particle size in aerosols[J].Chemical Reviews,1949,(02):245-267.
8Prodi V. A condensation aerosol generator for solid monodisperse particles.Assessment of airborne particles[M].Springfield,IL:C C Thomas,1972.169-181.
9Model 3475. Condensation monodisperse aerosol generator instruction manual[S].Revision D.TSI Incorporated,Particle Instruments,2002.
10Hollander,M,Schumann,G. The determination of particle size detection efficiency of condensation nucleus counters by means of polydisperse aerosols produced from soluble salt solutions and the problem of particle shattering upon crystallization[J].Atmospheric Environment,1979,(09):1319-1327.

1李志勇.WQF-2004型动态微量气溶胶发生器的研制[J].分析仪器,2008(1):12-14.
2田秋生,李在海,韩建新.新型气溶胶发生器的研制[J].消防技术与产品信息,2013,26(8):41-44. 被引量：1
3杨文,佟振峰,宁广胜,张长义,白冰.反应堆压力容器钢辐照脆化行为规律及预测技术研究[J].科技成果管理与研究,2016,0(12):83-85.
4邢雨.大型自动化多功能氡室的建立[J].中国原子能科学研究院年报,2006(1):155-155. 被引量：1
5张磊,李宏钊,郭秋菊.室内氡子体行为模型研究[J].辐射防护,2010,30(1):24-29. 被引量：4
6李素云,侯海全,李燕玲.我国某些铀矿井下氡子体平衡因子的现状[J].辐射防护,1997,17(3):232-235. 被引量：5
7席杭闽,魏诗程,沙成金.气溶胶和氡浓度变化对氡子体影响的探讨[J].科技广场,2014(3):18-21. 被引量：1
8刘群,王瑞云,高小梅,贾明,郭创成,吴涛,柳兆峰,丘丹圭.可携式荧光素钠气溶胶发生器样机研制[J].辐射防护,2002,22(2):74-80. 被引量：2
9杨文,佟振峰,宁广胜,张长义,白冰.反应堆压力容器钢辐照脆化行为规律及预测技术研究进展[J].中国原子能科学研究院年报,2015(1):55-56.
10刘德权,肖正贵,孙文哲,钟平,李波,李立.弹丸注入中的丸料气和推进剂系统[J].真空,1994,31(6):24-29. 被引量：1

核电子学与探测技术

2012年第11期

浏览历史

内容加载中请稍等...

氡室用冷凝式气溶胶发生器的研究

参考文献13

相关作者

相关机构

相关主题

浏览历史