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Research of Materials Science

Research of Materials Science (Yearly) is an international comprehensive professional academic journal of Ivy Publisher, concerning the development of materials science theory and technology application, on the combination of materials science theory and modern industrial technology. The main focus of the journal is the academic papers and comments of latest materials science theory research improvement in the fields of nature science, engineerin... [More] Research of Materials Science (Yearly) is an international comprehensive professional academic journal of Ivy Publisher, concerning the development of materials science theory and technology application, on the combination of materials science theory and modern industrial technology. The main focus of the journal is the academic papers and comments of latest materials science theory research improvement in the fields of nature science, engineering technology, economy and science, report of latest research result, aiming at providing a good communication platform to transfer, share and discuss the theoretical and technical development of materials science theory for professionals, scholars and researchers in this field, reflecting the academic front level, promote academic change and foster the rapid expansion of materials science theory and technology research.

The journal receives manuscripts written in Chinese or English. As for Chinese papers, the following items in English are indispensible parts of the paper: paper title, author(s), author(s)'affiliation(s), abstract and keywords. If this is the first time you contribute an article to the journal, please format your manuscript as per the sample paper and then submit it into the online submission system. Accepted papers will immediately appear online followed by printed hard copies by Ivy Publisher globally. Therefore, the contributions should not be related to secret. The author takes sole responsibility for his views.

ISSN Print:2327-0470

ISSN Online:2327-0489

Email:rms@ivypub.org

Website: http://www.ivypub.org/rms/

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Paper Infomation

Reconstruction Design of Dust Collector in Power Plant of Huainan Xinji No.2 Mine

Full Text(PDF, 581KB)

Author: Zhonghui Yin, Hao Ji

Abstract: DBW type electrostatic precipitators with three electric fields were used in the power plant of Huainan Xinji No.2 Mine. As the dedusting effect of the equipment was affected by the gas properties, there resulted in unstable emission and low dust-removing efficiency, which could not meet the requirement of the national new emission standards. Therefore, with the aim of meeting the demand for the Emission Standard of Air Pollutants for Thermal Power Plants (GB 13223-2011), the original infrastructure and equipment resource have been analyzed and calculated in this study; and the final solution was that the first original electric field was retained and the other two electric fields built later were reformed into low pressure pulse bag filters. The results shows that this transformation plan is realistic and feasible as the reformed system runs stably so far.

Keywords: Electrostatic Precipitator; Bag Filter; LMC Electric Change Bag; Emission Concentration; Engineering Application

References:

[1] GB 13271-2013, Emission Standard of Air Pollutants for Boiler[S]. Beijing Departments of Environmental Protection, the Environmental Protection Bureau and the National Quantity Examination Bureau.2013

[2] Cai ming, Liu Lianbo, Chen Junfeng. Retrofit schemes of the electrostatic precipitators in coal-fired power plants [J].China Power 2005,38(7):74-77

[3] Zhang Dianyin,Wang Chun. Dust Engineering Design Manual [M].Beijing: Chemical Industry Press, 2003.

[4] A chariya suriy aw ong J Christopher, J Hogan. et al charged fraction and electrostatic collection of ultra fine and submicrometer particles formed during O2-CO2 coal combustion [J]. Fuel, 2008.

[5] ALTMAN R OFFEN G, BUCKLEY W. et alwet electro-static precipitation demon-stration promise for fine particulate control-part I[J].Joumal of Power Engineering, 2001.

[6] Huang SH, Chen CC. Ultra fine aerosol penetration through electrostatic precipitators [J].Environ Sci Technol,2002.

[7] Chang Ram say.COHPAC compacts emission equipment in to smaller. clenser unit[J].power Engineering,1999.

[8] Ye zhuang, stanley Jmiller. A dvance Hybrid Particulate collector final topic report for phase[R].2001.

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