Modelling the Source of Blasting for the Numerical Simulation of Blast-Induced Ground Vibrations: A Review
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- 作者:Daniel Ainalis ; Olivier Kaufmann…
- 关键词:Blasting ; Blast vibration ; Ground vibration ; Blast modelling ; Blast characterisation ; Blasthole wall pressure
- 刊名:Rock Mechanics and Rock Engineering
- 出版年:2017
- 出版时间:January 2017
- 年:2017
- 卷:50
- 期:1
- 页码:171-193
- 全文大小:
- 刊物类别:Earth and Environmental Science
- 刊物主题:Geophysics/Geodesy; Civil Engineering;
- 出版者:Springer Vienna
- ISSN:1434-453X
- 卷排序:50
文摘
The mining and construction industries have long been faced with considerable attention and criticism in regard to the effects of blasting. The generation of ground vibrations is one of the most significant factors associated with blasting and is becoming increasingly important as mining sites are now regularly located near urban areas. This is of concern to not only the operators of the mine but also residents. Mining sites are subjected to an inevitable compromise: a production blast is designed to fragment the utmost amount of rock possible; however, any increase in the blast can generate ground vibrations which can propagate great distances and cause structural damage or discomfort to residents in surrounding urban areas. To accurately predict the propagation of ground vibrations near these sensitive areas, the blasting process and surrounding environment must be characterised and understood. As an initial step, an accurate model of the source of blast-induced vibrations is required. This paper presents a comprehensive review of the approaches to model the blasting source in order to critically evaluate developments in the field. An overview of the blasting process and description of the various factors which influence the blast performance and subsequent ground vibrations are also presented. Several approaches to analytically model explosives are discussed. Ground vibration prediction methods focused on seed waveform and charge weight scaling techniques are presented. Finally, numerical simulations of the blasting source are discussed, including methods to estimate blasthole wall pressure time-history, and hydrodynamic codes.