Development of Venturi negative-pressure secondary dedust device and application of local spray closure technique

[Display omitted] •Venturi negative-pressure secondary dedust device was developed by tests.•The pressure and velocity of Venturi device was revealed by numerical simulation.•The local spray closure technique for dust suppression was proposed.•The dedust effect of local spray closure technique was v...

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Bibliographic Details
Published in:Advanced powder technology : the international journal of the Society of Powder Technology, Japan Japan, 2019-01, Vol.30 (1), p.42-54
Main Authors: Sun, Biao, Cheng, Weimin, Wang, Jiayuan, Wang, Hao, Ma, Youying
Format: Article
Language:English
Subjects:
Coal dust
Local closure
Nozzle
Spray for dust suppression
Venturi negative-pressure secondary dedust device
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Summary:[Display omitted] •Venturi negative-pressure secondary dedust device was developed by tests.•The pressure and velocity of Venturi device was revealed by numerical simulation.•The local spray closure technique for dust suppression was proposed.•The dedust effect of local spray closure technique was verified by field test. In order to enhance the spray for dust suppression performance in a fully-mechanized mining face, based on orthogonal test, comparison test, numerical simulation and field application, the Venturi negative-pressure secondary dedust device was developed. Meanwhile, the local spray closure technique was proposed, which can not only effectively prevent the escape of coal dust from entering the footway space, but also remove coal dust around the respiratory zone from the footway space successfully. The results demonstrated that, under spray pressure of 6 MPa, the Sauter mean droplet size, negative pressure suction flow rate and effective spray distance of the novel dedust device with a throat-to-nozzle distance and throat diameter of 20 mm and 65 mm were 47.37 µm, 11.21 m3/min and 5.4 m respectively. Moreover, the novel dedust device produced droplets to a smaller scale than a single-nozzle. Additionally, the negative pressure and airflow velocity in the negative pressure suction inlet of novel dedust device were within the range from −0.97 Pa to −541.04 Pa and from 2.96 m/s to 27.29 m/s respectively. Finally, compared with the original dust suppression measures, the local spray closure technique can enhance the removal ratio of respiratory dust by an average of 44.3%.
ISSN:0921-8831
1568-5527
DOI:10.1016/j.apt.2018.10.005