Artur Cichowicz scite author profile

Seismic monitoring, analysis and interpretation are key components of the hazard assessment and risk management system on rockburst-prone mines. The Mine Health and Safety Council commissioned a task as part of the project "Minimising the rockburst risk" (SIM050302) to review current practice on South African mines and to formulate standards, guidelines, and descriptions of best practice. Standards were set for some areas of mine seismology practice such as network design and emergency response. In other areas of practice, such as data processing, it was only possible to provide guidelines. In yet other areas of practice, such as seismic hazard assessment and risk management, most methods currently in use have not been rigorously evaluated and validated. Many methods rely, to a greater or lesser extent, on local experience and subjective judgement. Tacit knowledge still has to be translated into explicit guidelines and procedures. It is thus deemed premature to set standards, or even firm guidelines. Current practice is described, and methods to evaluate the procedures are proposed.

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Tomographic study of upper-mantle structure of the South African continent, using wave-form inversion

Cichowicz

Green

1992

Physics of the Earth and Planetary Interiors

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Observational Study to Mitigate Seismic Risks in Mines:a New Japanese - South African Collaborative Project

Durrheim¹,

Ogasawara²,

Nakatani³

et al. 2009

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High-Resolution Strain Monitoring During M>2 Events in a South African Deep Gold Mine in Close Proximity to Hypocentres

Ogasawara¹,

Takeuchi²,

Shimoda³

et al. 2005

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The authors document strain changes up to ~10 -4 associated with two M>2 events 2.4 km deep at distances less than ~100 m from a strainmeter. This corresponds to a ~7 MPa stress change recorded only within the hypocentral area. This change was recorded with a sensitive, wide-dynamic-range, Ishii strainmeter. A 15-m hole was drilled subparallel to the fault strike, in order to continuously monitor slip-driving shear and normal strains with a sampling frequency of 25 Hz. Two M>2 events took place around the fault. For both events, relaxation in the maximum principal stress at a rate of 10 -6 /week was observed for several days prior to the main shock. In one of the two events, foreshocks were concentrated in the last several tens of seconds, accompanied by strain steps and logarithmic post-seismic deformation. However, no acceleration in deformation was observed, even with a resolution of 1/10,000 of a coseismic step for each event.

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Artur Cichowicz

Computation of analytical partial derivatives of phase and group velocities for Rayleigh waves with respect to structural parameters

Guidelines, Standards and Best Practice for Seismic Hazard Assessment and Rockburst Risk Management in South African Mines

Tomographic study of upper-mantle structure of the South African continent, using wave-form inversion

Observational Study to Mitigate Seismic Risks in Mines:a New Japanese - South African Collaborative Project

High-Resolution Strain Monitoring During M>2 Events in a South African Deep Gold Mine in Close Proximity to Hypocentres

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