Skip directly to search Skip directly to A to Z list Skip directly to navigation Skip directly to page options Skip directly to site content

Mining Publication: Evaluation of the Bagged Stone Dust Barrier Effectiveness in a Bord and Pillar Mine

NOTE: This page is archived for historical purposes and is no longer being maintained or updated.

Original creation date: June 2001

Image of publication Evaluation of the Bagged Stone Dust Barrier Effectiveness in a Bord and Pillar Mine

A project to evaluate the South African bagged stone dust explosion barrier was successfully completed at the National Institute for Occupational Safety and Health (NIOSH), Pittsburgh Research Laboratory's (PRL), Lake Lynn Experimental Mine (LLEM) during the period November 1999 through May 2000. The tests were conducted in a three-entry section of the LLEM. Two types of explosions were used to evaluate the distributed and concentrated bagged barrier performance in a multi-entry mine section. The fuel zone of the first explosion type was only in the center B-drift. In the second explosion type, coal and stone dust mixtures were placed in all three drifts. A total of six explosions, including two baseline and four barrier evaluation explosions, were conducted. Of the four barrier explosions, the distributed and concentrated barriers were each evaluated against the two explosion types. For these explosion tests, the distributed barrier extended from about 74 to 170 m and the concentrated barrier from about 74 to 104m in B-drift. The distributed barrier successfully stopped flame propagation in both types of explosion tests. The flame extended further for the explosion tests where the dust was loaded in all three entries compared with dust loaded only in the center entry, but in both cases the flame was stopped within the barrier zone. The concentrated barrier was also successful in stopping flame propagation in both explosion tests. From the full-scale experimental mine test results, it can be concluded both bagged barrier designs were effective in stopping coal dust explosions in the multiple entries of the LLEM.

Authors: JJ du Plessis, ES Weiss, KL Cashdollar

Conference Paper - June 2001

NIOSHTIC2 Number: 20021296

Proceedings of the Seventh International Mine Ventilation Congress, Wasilewski S, ed. (June 17-22, 2001, Crakow, Poland), chapter 81, :573-580


TOP