Preparation and performance study of a novel polymeric spraying dust suppression agent with enhanced wetting and coagulation properties for coal mine

In this work, an environmental friendly dust suppressant with improved wettability and coagulation properties was developed by a chemical modification method. The hydroxypropyl guar gum was synthesized by nucleophilic substitution reaction between natural polymer guar gum and propylene oxide. Throug...

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Bibliographic Details
Published in:Powder technology 2020-03, Vol.364, p.901-914
Main Authors: Zhang, Haihan, Nie, Wen, Yan, Jiayi, Bao, Qiu, Wang, Hongkun, Jin, Hu, Peng, Huitian, Chen, Dawei, Liu, Zhiqiang, Liu, Qiang
Format: Article
Language:English
Subjects:
Bonding agents
Chemical modification
Chemical modification of guar gum
Coagulation
Coal
Coal dust
Coal mines
Dust
Dust control
Enhanced wetting and coagulation properties,mine spray simulation platform
Guar gum
Natural polymers
Optimization
Particle size
Pneumoconiosis
Polymers
Propylene oxide
Scanning electron microscopy
Sedimentation rate
Spraying
Substitution reactions
Wettability
Wetting
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Summary:In this work, an environmental friendly dust suppressant with improved wettability and coagulation properties was developed by a chemical modification method. The hydroxypropyl guar gum was synthesized by nucleophilic substitution reaction between natural polymer guar gum and propylene oxide. Through a series of optimization of adjuvant agents and viscosity experiments, the optimum formulation contained moisture agent W + 0.8% hydroxypropyl guar gum. A mastersizer 3000 laser particle size analyzer was used to determine that the wettability of coal dust increases with the increase of particle size. The dust suppression agent and coal dust were fully mixed and bonded together, as observed by a high-resolution scanning electron microscopy. The spray dust reduction experiment results show that the spray dust reducer developed in this paper can significantly reduce the dust concentration, and the average dust removal rates of total dust and respirable dust are increased to 83.94% and 84.08%, respectively. [Display omitted] •Chemical dust reduction is especially suitable for hydrophobic respirable dust.•The optimum composite spraying dust suppression agent concentration is determined.•Wrinkles were found on the surface of granules of modified GG.•The dust-reducing performance was significantly higher than that of clear water.
ISSN:0032-5910
1873-328X
DOI:10.1016/j.powtec.2019.10.082