Development of a Multiplication Factor for the Kuz-Ram Model to Match the Fragment Size Obtained from Wipfrag Image Analysis

Das, Rajesh Kumar; Dhekne, Prakash Y.; Murmu, Sunny

doi:10.18311/jmmf/2023/34116

jmmf

2023

DOI: 10.18311/jmmf/2023/34116

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Development of a Multiplication Factor for the Kuz-Ram Model to Match the Fragment Size Obtained from Wipfrag Image Analysis

Rajesh Kumar Das,

Prakash Y. Dhekne,

Sunny Murmu

Abstract: The degree to which the rock is fragmented by blasting operations significantly impacts the productivity of the opencast mining operation. Over image analysis-based tools, the Kuz-Ram empirical model is preferred for determining the mean fragment size of a blasted muck pile. The fragmentation analysis results by the Kuz-Ram model are said to report the overestimation of the size of the fragments. On the other hand, while accurate, measuring the mean fragment size by image-based analysis is also time-consuming … Show more

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2024

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Applications of Kuz–Ram Models in Mine-to-Mill Integration and Optimization—A Review

Saldana,

Gallegos,

Arias

et al. 2024

Minerals

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The Mine-to-Mill (M2M) approach aims to enhance efficiency and reduce costs in the mineral processing industry by optimizing the mining and processing stages. M2M integrates orebody characterization, blasting, and downstream processes, such as grinding and flotation, demonstrating that material fragmentation directly impacts downstream efficiency. This review studies the development and applications of fragmentation models in M2M integration and optimization, finding that their study is divided into three phases. In the first, the potential of M2M is investigated through simulation models that improve fragmentation in blasting to optimize grinding. The second focuses on the practical application of these models in mines, while the third phase integrates geometallurgical data into mine block models, enhancing production planning and selective ore extraction. The M2M integration has demonstrated significant improvements in plant performance, particularly in increasing grinding efficiency through optimized blast fragmentation. The literature also emphasizes the role of optimizing crushing and grinding conditions through models and circuit adjustments to enhance performance and reducing energy consumption. Geometallurgy plays a crucial role in plant optimization by identifying areas with better processing characteristics and adjusting operating parameters to maximize efficiency. Recent studies have shown how the implementation of integrated models can increase the profitability and sustainability of mining operations.

show abstract

Applications of Kuz–Ram Models in Mine-to-Mill Integration and Optimization—A Review

Saldana,

Gallegos,

Arias

et al. 2024

Minerals

View full text Add to dashboard Cite

show abstract

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Development of a Multiplication Factor for the Kuz-Ram Model to Match the Fragment Size Obtained from Wipfrag Image Analysis

Cited by 1 publication

References 17 publications

Applications of Kuz–Ram Models in Mine-to-Mill Integration and Optimization—A Review

Applications of Kuz–Ram Models in Mine-to-Mill Integration and Optimization—A Review

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