Breakage and separation mechanism of ZGM coal mill based on parameters optimization model

Wei, Hua, He, Yaqun, Shi, Fengnian, Zhou, Nianxing, Wang, Shuai and Ge, Linhan (2014) Breakage and separation mechanism of ZGM coal mill based on parameters optimization model. International Journal of Mining Science and Technology, 24 2: 285-289. doi:10.1016/j.ijmst.2014.01.023

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Author Wei, Hua
He, Yaqun
Shi, Fengnian
Zhou, Nianxing
Wang, Shuai
Ge, Linhan
Title Breakage and separation mechanism of ZGM coal mill based on parameters optimization model
Journal name International Journal of Mining Science and Technology   Check publisher's open access policy
ISSN 2095-2686
Publication date 2014-03
Year available 2014
Sub-type Article (original research)
DOI 10.1016/j.ijmst.2014.01.023
Open Access Status
Volume 24
Issue 2
Start page 285
End page 289
Total pages 5
Place of publication Amsterdam, Netherlands
Publisher Elsevier
Collection year 2015
Language eng
Formatted abstract
Sampling ports were firstly drilled on a ZGM95 coal mill in the power plant in China, and the coal samples from various points in the pulverizer were collected under the different operation conditions. The property of the sampling material from the mill was analyzed, applying the float–sink test, size distribution analysis, proximate analysis and so on. It was indicated that the +250 μm fraction in the pulverized fuel accounted for only 0.02%, while it was 83.2% in the new feed. The circulating ratio and coal flow in the separator and the cone zone were calculated using the mass balance of the circulating load. So, the circulating ratio in the separator of the pulverizer was between 8 and 13, and the circulating ratio, the feed flow of separator and cone zone all raised with the increase of the air volume. Furthermore, the parameters of the separation functions were obtained based on the fitting method. It was shown that the mean value of the shape factor B was 0.7617, and the parameter D which is the particle size at 50% cumulative yield in the separator almost kept unchanged.
Keyword ZGM mill
Coal grinding
Parameters optimization
Mass balance
Q-Index Code C1
Q-Index Status Confirmed Code
Institutional Status UQ

Document type: Journal Article
Sub-type: Article (original research)
Collections: Official 2015 Collection
Sustainable Minerals Institute Publications
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