Comparison and Application of Two types of Filling Gel to Prevent Spontaneous Combustion at the Region where Top-Coal Caves above Entry

Yuhuai Wang; Hang Suo; Yao Shan; Bo Yu; Erxiao Liu; Fei Hou

doi:10.1051/matecconf/20166707015

All issues

Volume 67 (2016)

MATEC Web Conf., 67 (2016) 07015

Abstract

Open Access

Issue		MATEC Web Conf. Volume 67, 2016 International Symposium on Materials Application and Engineering (SMAE 2016)


Article Number		07015
Number of page(s)		8
Section		Chapter 7 Materials Application and Engineering
DOI		https://doi.org/10.1051/matecconf/20166707015
Published online		29 July 2016

MATEC Web of Conferences 67, 07015 (2016)

Comparison and Application of Two types of Filling Gel to Prevent Spontaneous Combustion at the Region where Top-Coal Caves above Entry

Yuhuai Wang¹^,2^a, Hang Suo¹, Yao Shan¹^,2^b, Bo Yu¹, Erxiao Liu¹ and Fei Hou¹

¹ North China Institute of Science and Technology, Beijing, 101601, China
² Hebei Province Key Laboratory of Mine Disaster Prevention, Beijing, 101601, China

^a 785281919@qq.com
^b 9106350@qq.com

Abstract

Two types of gel were developed, by taking fly ash and foaming cement as aggregate, which is usually used as filling material at the region where top-coal caves above coal entry in the Jinggezhuang coal mine, and adding high molecular polymer and bio-gel as additive. Sweating rates of the two types of gel under various matching ratio and temperature were tested. And then sweating ratio and water retention ratio of the two gels were calculated, based on which, the optimized matching ratios, were determined. Viscosity indexes of the two-type gel under different ratios were tested. The optimized filling ratios of the two types of gel were determined according to the two indexes, water retention rate and the viscosity. The filling experiments were implemented and evaluated in site, the Jinggezhuang coal mine. The results show that the fly ash gel has a good achievement on preventing spontaneous combustion at the Region where Top-Coal Caves above entries. It is promising, economically and environmental friendly, and valuable in popularization in coal mines.

Key words: top-coal caving region / gel / sweating rate / water retention rate / viscosity

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