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The influence of an asymmetry in the sequence rock/coal/rock on the propagation of Rayleigh seam waves

Journal Article · · Geophys. Prospect.; (United States)
; ;
Small offsets in hard coal seams can be detected with the aid of seam (channel) waves. Transmission and reflection of seam waves depend, among other parameters, upon the symmetry properties of the sequence rock/coal/rock. Two typical unsymmetrical sequences are found in European coal deposits: coal seams with roof and floor of differing acoustic impedance and coal seams interlayered with rock and soil. Two-dimensional analog models with appropriate impedance contrasts are used to study the effect of the unsymmetrical layers upon the propagation of Rayleigh seam waves. Data analysis is based upon amplitude measurements both parallel and perpendicular to the layers and dispersion curves. The effect of unsymmetrical roof (rock 1) and floor (rock 2) was studied with models containing homogeneous coal seams. The influence of a dirt bed on wave propagation was studied in models where the roof and the floor have the same elastic properties. The maximum thickness of the dirt bed did not exceed 20% of the total seam thickness. The effect of the bed's location within the seam was also investigated. For all recorded normal-mode wave groups either the total seam or the coal layers could be regarded as wave guides. This was shown by the fact that the phases could be associated with the phase velocity dispersion curves calculated for the symmetrical sequence rock/coal/ rock. These curves are relevant under the condition that the thickness of the coal layer assumed under the calculation coincides with the thickness of the effective wave guide of the respective wave groups. Wave groups guided in the total seam are not influenced by either the thickness or the position of the dirt bed. On the other hand, for wave groups guided in the coal layers, the quotient of signal amplitudes in the coal layers is influenced by the position of the dirt bed.
Research Organization:
Institut fur Geophysik, Ruhr-Universitat Bochum, Bochum
OSTI ID:
6363255
Journal Information:
Geophys. Prospect.; (United States), Journal Name: Geophys. Prospect.; (United States) Vol. 33:4; ISSN GPPRA
Country of Publication:
United States
Language:
English

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Related Subjects

01 COAL, LIGNITE, AND PEAT
011000* -- Coal
Lignite
& Peat-- Reserves
Geology
& Exploration
58 GEOSCIENCES
580203 -- Geophysics-- Geophysical Survey Methods-- (1980-1989)
ASYMMETRY
COAL DEPOSITS
COAL SEAMS
DETECTION
GEOLOGIC DEPOSITS
GEOLOGIC FAULTS
GEOLOGIC FRACTURES
GEOLOGIC MODELS
GEOLOGIC STRUCTURES
GEOPHYSICAL SURVEYS
GEOPHYSICS
INTERFACES
MATHEMATICAL MODELS
MINE ROADWAYS
MINERAL RESOURCES
RAYLEIGH WAVES
RESOURCES
ROCKS
SEISMIC SURFACE WAVES
SEISMIC SURVEYS
SEISMIC WAVES
SIGNALS
SURVEYS
TUNNELS
UNDERGROUND FACILITIES
WAVE PROPAGATION
WAVEGUIDES