MINING METHODS: SUBLEVEL CAVING (SC)

Introduction

Sublevel caving is an underground mining method that involves the controlled caving of ore from multiple sublevels. This technique is particularly suited for steeply dipping ore bodies and is characterized by the use of longhole drilling and blasting to fragment the ore, which then collapses under its own weight into drawpoints below.

Advantages and enconveniences

First of all, let’s deal with the advantages of Sublevel Caving before talking about some issues related to it.

The main benefits of using SC extraction approach are:

1. High Productivity: Sublevel caving allows for continuous mining operations, which can lead to high production rates due to the efficient use of mechanized equipment.
2. Adaptability: The method can be applied to various ore body shapes, sizes, and strengths, making it versatile for different mining conditions.
3. Improved Safety: Working conditions can be made safer and more comfortable since operations are conducted in drifts, reducing the risk associated with open stopes.
4. Cost-Effectiveness: It generally has lower operating costs compared to other underground mining methods, especially for large-scale operations.
5. Effective Ore Recovery: When properly managed, sublevel caving can achieve reasonable ore recovery rates, although this is contingent on careful planning and execution.

Although those advantages, Sublevel Caving also offers some drawbacks such as:

1. Ore Recovery Limitations: The method typically results in ore recovery rates of only 85-90% if waste rock dilution is to be minimized to acceptable levels (20-30%). This can lead to significant losses in valuable material.
2. Dilution Issues: The presence of waste rock can dilute the ore, affecting the quality and profitability of the extracted material. Dilution rates can vary widely, complicating the economic viability of the operation.
3. Complex Planning Requirements: Successful implementation of sublevel caving necessitates meticulous planning and control of various parameters, including the layout of drifts and the blasting techniques used. Failure to optimize these factors can lead to increased dilution and lower recovery rates.
4. Geotechnical Challenges: The method is sensitive to the geotechnical properties of the ore body, such as its hardness and structural integrity. Variations in these properties can lead to unpredictable outcomes in terms of ore recovery and stability.

Conclusion

In summary, sublevel caving is a powerful mining method with distinct advantages in terms of productivity and adaptability, but it also presents challenges related to ore recovery and dilution that require careful management.

Video owner: Epiroc