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

NIOSHTIC-2 Publications Search

Search Results

Relationship between radiated seismic energy and explosive pressure for controlled methane and coal dust explosions in an underground mine.

Authors
Murphy-MM; Westman-EC; Iannacchione-A; Barczak-TM
Source
Tunn Undergr Space Technol 2012 Mar; 28:278-286
NIOSHTIC No.
20040510
Abstract
Examination of seismic records during the time interval of the Sago Mine disaster in 2006 revealed a small amplitude signal possibly associated with an event in the mine. Although the epicenter of the signature was located in the vicinity where the explosion occurred, it could not be unequivocally attributed to the explosion. A greater understanding about the seismicity from mine explosions is required in order to properly interpret critical seismic information. A seismic monitoring system located at NIOSH's Lake Lynn Experimental Mine has monitored 16 experimental methane and coal dust-based explosions. This paper describes the research conducted to quantify a relationship between measured values of radiated seismic energy and peak explosive pressure generated. The radiated seismic energy takes into account seismic signature characteristics such as the frequency content, amplitude, and duration. On the other hand, the size of the explosion is a function of the experimental design, dependent on factors such as the presence of an explosion-containment structure, the mine geometry, and the amount of initial explosive fuel used during the explosion. The seismic signatures from methane and coal dust explosions were analyzed using standard waveform analysis procedures. The procedures used to estimate the radiated seismic energy were conducted using self-produced programs, which are explained in this paper. The radiated seismic energy estimates were considered to be relative values for each experiment. A relationship was derived to correlate the relative radiated seismic energy to the size of the explosion, defined as the peak pressure generated. It was also observed during this study that an explosion-containment structure can act as a major seismic source. Recommendations are made, based upon the findings of this study, for improved collection of seismic data in the future.
Keywords
Mining-industry; Underground-mining; Coal-mining; Explosions; Explosion-prevention; Coal-dust; Mine-gases; Mine-disasters; Monitoring-systems; Monitors; Accident-prevention; Author Keywords: Instrumentation; Methane and coal dust explosions; Mine seals; Radiated seismic energy; Seismic monitoring; Underground mine
Contact
Michael M. Murphy, Office of Mine Safety and Health Research/Ground Control Branch, PO Box 18070, 626 Cochrans Mill Rd., Pittsburgh, PA 15236, United States
Publication Date
20120301
Document Type
Journal Article
Email Address
mmu5@cdc.gov
Fiscal Year
2012
NTIS Accession No.
NTIS Price
Identifying No.
B03282012
ISSN
0886-7798
NIOSH Division
OMSHR
Priority Area
Mining
Source Name
Tunnelling and Underground Space Technology
State
PA; VA
TOP