Research on Electrical Resistively of Wood Dust

Han Dong Zhou; Zhen Ning Liu; Xiao Bao Lei

doi:10.4028/www.scientific.net/AMR.142.134

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 142Research on Electrical Resistively of Wood Dust

Research on Electrical Resistively of Wood Dust

Abstract:

In order to design an ESP (electrostatic precipitator) used for the domain of wood processing, electrical resistively of Wood dust should be understand clearly. The ESP could be applied to the dust of which the specific resistance was 104~1011Ω·cm. Dust specific resistance was related with temperature, humidity, the ingredients of dust and so on. Therefore it must be firstly that the specific resistance of wood dust was researched to decide whether the electrostatic dust separator was applied in wood industry.

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Periodical:

Advanced Materials Research (Volume 142)

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134-138

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.142.134

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Online since:

October 2010

Authors:

Han Dong Zhou, Zhen Ning Liu, Xiao Bao Lei

Keywords:

Electrical Resistively of Dust, ESP, Wood Industry

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References

[1] LIU Lei, XU Wen-xing: Journal of Environmental Science and Management Vol. 30 (2005), No. 6: p.36.

Google Scholar

[2] WANG Hai-ming1, MA Hong:. Journal of Wood Processing Machinery (2003) No. 2, p.2: 24.

Google Scholar

[3] HUANG San-ming: Journal of Environmental Protection (2005) No. 7, p.7.

Google Scholar

[4] Mirostaw Dors, jerzy Mizeracayk: Journal of Electrostatics Vol. 45 (1998), pp.25-36.

Google Scholar

[5] G. Mainelis, S.A. Grinshpun: Aerosol Scienceand Technogy Vol. 30 (1999), No. 2, pp.127-144.

Google Scholar

[6] Huang Sanming: An Approach to the Precharge Technology Used for Electrostatic Procipitators (Proceedings of The 4th International Conference On Electrostatic Precipitator, 1990).

Google Scholar

[7] Toshiaki Misake, Akio Akasaka: Recent Applidcations of Moving Electode Type Electrostatic Precipitator(Proceedings of The 7th international conference on Electrostatic Precipitator, 1998).

Google Scholar

[8] Lami E, Mattachin F, Sala, R. Vigl.H. A: Journal of Electrostatics Vol. 10 (1997) No. 3, pp.7-14.

Google Scholar

[9] ZHOU Jingwei, WANG Li, SONG Cunyi: Journal of Industrial Safety and Environmental Protection (2006) No. 6, p.3.

Google Scholar

[10] Victor Reyes, carsten R. lund: Full scale Test with switch Mode Power Supplies on Electrostatic Precipitation(Proceedings of the 8th international conference on Electostatic Precipitation, 2001).

Google Scholar

[11] Lili Guan: Dust Flow-Separator Type Electrostatic Precipitator for Fine Particle Control from Nattural Gas Combustion Exhausts (NSERC Strategic Meeting, 2004).

Google Scholar

[12] S.A. Shedd, in: Air Pollution Engineering Manual (Van Nostrand Reinhold, New York, 2001).

Google Scholar

[13] Wang Liping, Zhou Min, Zhang Hongmei: Journal of Environmental Pollution & Control. Vol. 26(2004) No. 1, pp.75-77.

Google Scholar