Experiment and its device for artificial simulated fog-haze environment

WANG Jianhui; ZHAO Yueju; SUN Wei; TENG Jilin; WANG Guogang; MIAO Wenhua

doi:10.12030/j.cjee.201609073

2017 Volume 11 Issue 9

Article Contents

Abstract

References

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WANG Jianhui, ZHAO Yueju, SUN Wei, TENG Jilin, WANG Guogang, MIAO Wenhua. Experiment and its device for artificial simulated fog-haze environment[J]. Chinese Journal of Environmental Engineering, 2017, 11(9): 5130-5137. doi: 10.12030/j.cjee.201609073

Citation:

WANG Jianhui, ZHAO Yueju, SUN Wei, TENG Jilin, WANG Guogang, MIAO Wenhua. Experiment and its device for artificial simulated fog-haze environment[J]. Chinese Journal of Environmental Engineering, 2017, 11(9): 5130-5137. doi: 10.12030/j.cjee.201609073

Experiment and its device for artificial simulated fog-haze environment

1.
Nari Group Corporation(State Grid Electric Power Research Institute), Nanjing 211000, China
2.
Beijing Guodian Futong Science and Technology Development Co. Ltd., Beijing 100070, China
3.
College of Mechanical and Electrical Engineering, Xi'an University of Architecture and Technology, Xi'an 710055, China

Received Date: 23/10/2016
Accepted Date: 07/09/2016
Available Online: 26/08/2017

Fund Project:

Abstract

Effect of fog-haze on the work and human life was received more and more attention, however the research work was limited by the uncertainty of the actual fog-haze weather. To overcome this difficulty, this paper analyzed the haze ingredients in the typical regions, and got the haze formation method by tracing the roots, designed four unit simulation apparatuses of generating haze-fog, such as emissions of burning coal, emissions of burning oil(for example of motor vehicle exhaust), earth and dust, humidity of certain conductivity. A cylindrical chamber made of plexiglass was produced, which is three point two meters high and four meters in diameter. Six monitors were set up at different positions of chamber. Temperature, humidity, particle distribution and concentration were monitored by temperature and humidity sensors, particle spectromter, airborne particle counter and so on. In short, the system could achieve haze environments of different concentrations through adjusting simulation parameters, and could be used to the accelerated aging test.
- fog-haze,
- simulation,
- particle concentration,
- generating unit apparatus,
- gasoloid

References

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沈阳化工大学材料科学与工程学院沈阳 110142

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Experiment and its device for artificial simulated fog-haze environment

Received Date: 23/10/2016

Accepted Date: 07/09/2016

Available Online: 26/08/2017

Fund Project:

Key words:

Abstract: Effect of fog-haze on the work and human life was received more and more attention, however the research work was limited by the uncertainty of the actual fog-haze weather. To overcome this difficulty, this paper analyzed the haze ingredients in the typical regions, and got the haze formation method by tracing the roots, designed four unit simulation apparatuses of generating haze-fog, such as emissions of burning coal, emissions of burning oil(for example of motor vehicle exhaust), earth and dust, humidity of certain conductivity. A cylindrical chamber made of plexiglass was produced, which is three point two meters high and four meters in diameter. Six monitors were set up at different positions of chamber. Temperature, humidity, particle distribution and concentration were monitored by temperature and humidity sensors, particle spectromter, airborne particle counter and so on. In short, the system could achieve haze environments of different concentrations through adjusting simulation parameters, and could be used to the accelerated aging test.

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Experiment and its device for artificial simulated fog-haze environment

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通讯作者: 陈斌, bchen63@163.com

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