Temperature rise characteristics of a new designed disc for inclined downward belt conveyor
Abstract
Purpose
The aim of this work is to reveal the temperature rise characteristics of the new designed disc during a braking process. In underground coal mines, the highest temperature of the disc brake used for inclined downward belt conveyors should be < 150 to prevent gas explosion during a braking process. To meet the requirements, a new type of disc was designed.
Design/methodology/approach
By using ANSYS software, the disc surface and interior temperature rise variations, effect of braking time and running speed on temperature rise are analyzed numerically.
Findings
The results show that the new designed disc can meet the coal mines’ requirements well, during the braking process the disc surface temperature increases at first and then decreases, there is an obvious temperature gradient in the axial direction; when running speed increases to two times of the rated one, the highest temperature nearly reaches 150; and a prolonged braking time can decrease the highest temperature effectively.
Research limitations/implications
It indicates that the disc brake should act as earlier as possible to slow down the belt conveyor when overspeed occurs; and when the running speed increases to two times of the rated one, the braking time must be prolonged to prevent gas explosion.
Originality/value
Research findings of this paper provides theoretical basis for the practical applications of the disc brake used for inclined downward belt conveyor.
Keywords
Citation
Meng, Q. (2014), "Temperature rise characteristics of a new designed disc for inclined downward belt conveyor", Industrial Lubrication and Tribology, Vol. 66 No. 6, pp. 671-677. https://doi.org/10.1108/ILT-07-2012-0068
Publisher
:Emerald Group Publishing Limited
Copyright © 2014, Emerald Group Publishing Limited