USING ZERO-WASTE BASELINES TO IDENTIFY COMPRESSED AIR SYSTEM INEFFICIENCIES IN DEEP-LEVEL MINES

USING ZERO-WASTE BASELINES TO IDENTIFY COMPRESSED AIR SYSTEM INEFFICIENCIES IN DEEP-LEVEL MINES

Inefficient compressed air systems in deep-level mines deteriorate energy performance and increase operational costs. Leaks, wastages, and misuse are common inefficiencies that necessitate an oversupply of compressed air. It is therefore important to identify where the opportunities for improvement...

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Bibliographic Details
Published in:South African journal of industrial engineering Vol. 32; no. 3; pp. 55 - 68
Main Authors: van der Merwe, Arno, Gous, Andries, Schutte, Corne
Format: Journal Article
Language:English
Published: Bedfordview South African Institute for Industrial Engineering 01-11-2022
The Southern African Institute for Industrial Engineering
Subjects:
Business metrics
Calibration
Compressed air
Design specifications
Digital twins
Electricity
Engineering, Industrial
Mines
Mining industry
Mining machinery
Operating costs
Performance enhancement
Pneumatics
Simulation
Software
Underground mining
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Summary:Inefficient compressed air systems in deep-level mines deteriorate energy performance and increase operational costs. Leaks, wastages, and misuse are common inefficiencies that necessitate an oversupply of compressed air. It is therefore important to identify where the opportunities for improvement are located. Underground mining equipment can be used to develop a zero-waste compressed air demand profile. This profile can then be simulated for the entire operation to determine a theoretical baseline. Noticeable inefficiencies are then identified by comparing the actual data with the zero-waste baselines. The results of this study showed that the surface operations oversupply compressed air by 15% (10 kg/s of air) per day. This requires an additional 80 MWh of electricity (14.5% of the total) and costs approximately R91 000 per day. The comparison with the zero-waste baselines showed that 7.9 kg/s of air is wasted at the underground levels during drilling periods, highlighting the areas that require mitigation projects to improve the performance while decreasing costs and wastages. Keywords zero-waste baseline; compressed air; deep-level mine
ISSN:2224-7890
1012-277X
2224-7890
DOI:10.7166/33-3-2803