Opencast mining depends heavily on blasting for rock fragmentation and excavation. Conventional blasting methods often result in suboptimal fragmentation, high ground vibration, excessive explosive consumption, and substantial environmental impacts such as air overpressure, noise, and flyrock. Chamber blasting, an advanced controlled blasting technique involving controlled initiation within partially confined cavities (chambers), presents a promising alternative for improving blasting efficiency while minimising ecological disruption. This research explores principles of chamber blasting, design methodology, performance evaluation, and its environmental advantages in opencast contexts. Comparative analysis with conventional blasting demonstrates that chamber blasting enhances fragmentation, reduces explosive usage, mitigates vibration and noise pollution, and improves operational economics. The study concludes that chamber blasting can be an effective, sustainable blasting strategy for modern opencast mining operations.
Sumeet Kishore (Thu,) studied this question.