1. Explosive utilization efficiency enhancement: An application of machine learning for powder factor prediction using critical rock characteristics
- Author
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Blessing Olamide Taiwo, Angesom Gebretsadik, Hawraa H. Abbas, Mohammad Khishe, Yewuhalashet Fissha, Esma Kahraman, Ahsan Rabbani, and Adams Abiodun Akinlabi
- Subjects
Explosive ,Mining ,Powder factor ,Machine learning ,Small scale mine ,Science (General) ,Q1-390 ,Social sciences (General) ,H1-99 - Abstract
Maximizing the use of explosives is crucial for optimizing blasting operations, significantly influencing productivity and cost-effectiveness in mining activities. This work explores the incorporation of machine learning methods to predict powder factor, a crucial measure for assessing the effectiveness of explosive deployment, using important rock characteristics. The goal is to enhance the accuracy of powder factor prediction by employing machine learning methods, namely decision tree models and artificial neural networks. The analysis finds key rock factors that have a substantial impact on the powder factor, hence enabling more accurate planning and execution of blasting operations. The analysis uses data from 180 blast rounds carried out at a dolomite mine in south-south Nigeria. It incorporates measures such as root mean square error (RSME), mean absolute error (MAE), R-squared (R2), and variance accounted for (VAF) to determine the best models for predicting powder factor. The results indicate that the decision tree model (MD4) outperforms alternative approaches, such as artificial neural networks and Gaussian Process Regression (GPR). In addition, the research presents an efficient artificial neural network equation (MD2) for estimating the values of optimum powder factor, demonstrating outstanding blasting fragmentation. In conclusion, this research provides significant information for improving the accuracy of powder factor prediction, which is especially advantageous for small-scale blasting operations.
- Published
- 2024
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