Analysis of respirable dust exposure data collected at a Zambian copper mine between 2017 and 2022

Mwaba Sifanu; Kennedy K Kalebaila; Patrick Hayumbu; Lubinda Nabiwa; Stephanus J L Linde

doi:10.3389/fpubh.2023.1288485

Analysis of respirable dust exposure data collected at a Zambian copper mine between 2017 and 2022

Front Public Health. 2024 Jan 31:11:1288485. doi: 10.3389/fpubh.2023.1288485. eCollection 2023.

Authors

Mwaba Sifanu¹, Kennedy K Kalebaila¹, Patrick Hayumbu¹, Lubinda Nabiwa¹, Stephanus J L Linde²

Affiliations

¹ School of Mathematics and Natural Sciences, Copperbelt University, Kitwe, Zambia.
² Occupational Hygiene and Health Research Initiative, North-West University, Potchefstroom, South Africa.

Abstract

Mine workers are occupationally exposed to respirable dust, which can cause irreversible lung diseases and controlling exposure concentrations to as low as reasonably practicable is, therefore, essential. To implement exposure reduction strategies and adequately manage exposure to hazardous chemicals, exposure needs to be measured and recorded according to a standard exposure management plan. This study aimed to assess the available respirable dust exposure data measured between 2017 and 2022 in various work areas and job categories at two mining shafts and a concentrator plant of a Zambian copper mine. Additionally, the monitoring program implemented at the mine was assessed for appropriateness. Descriptive data analysis was used to create an exposure matrix comprising 253 exposure measurements. Approximately 5.6% of the measured concentrations exceeded the South African time-weighted average occupational exposure limit (TWA-OEL) of 3 mg/m³. The geometric means of respirable dust exposure for shaft A, shaft B and the concentrator plant were 0.44 mg/m³, 0.44 mg/m³, and 0.68 mg/m³, respectively. The work areas with the highest maximum exposure results were the tipping area (18.0 mg/m³) at shaft A, the sump and waste bin (8.05 mg/m³) at shaft B and the screening (10.8 mg/m³), secondary crusher (14.0 mg/m³), foreign ore bin (4.43 mg/m³), and tertiary crusher (5.07 mg/m³) areas at the concentrator plant. It was found that the monitoring strategy implemented at the mine was flawed and did not collect a sufficient number of samples in each area during each year to make rigorous statistical assessment possible. This study highlights the sampling strategy's shortcomings and recommends adopting a standardized monitoring strategy, such as EN689, to improve the respirable dust monitoring program at the mine. Additionally, this strategy can be implemented across Zambia and, if implemented correctly, it has the potential to be improve exposure monitoring across the country as no standard sampling strategy is currently enforced by the Government.

Keywords: Zambian copper mining; concentrator plant; dust exposure; mining shafts; monitoring program; retrospective data.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Air Pollutants, Occupational* / analysis
Copper
Dust / analysis
Environmental Monitoring / methods
Humans
Lung Diseases*
Zambia

Substances

Air Pollutants, Occupational
Copper
Dust

Grants and funding

The author(s) declare financial support was received for the research, authorship, and/or publication of this article. The authors would like to gratefully acknowledge financial aid from the Copperbelt University Africa Center of Excellence for Sustainable Mining (Zambia) and the Zambia Ministry of Technology and Science.