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Evaluating respirable coal dust concentrations at the face of South African coal mines

M.P.H., Faculty of Health Sciences, 2008 / Introduction
The Department of Minerals and Energy (DME) in South Africa issued a Directive B7, titled “A Guideline
for the Ventilating of Mechanical Miner Sections” to the coal mining industry. The main purpose of this
directive was to reduce respirable dust exposures at the coal face with the long term objective of
reducing the incidence of Coal Workers Pneumoconiosis (CWP). This study attempts to evaluate the
appropriateness of the DME approach by comparing respirable coal dust results from personal samples
from occupations at the coal face to the results obtained from engineering samples at the continuous
miner.
Objectives
The objectives of this study are to:
• Describe personal respirable coal dust concentrations of the occupations within the continuous
miner Homogeneous Exposure Group (HEG) in five underground coal mines in Mpumalanga from
January 2005 to December 2006.
• Describe environmental engineering respirable coal dust concentrations of the continuous miner
operator position in five underground coal mines in Mpumalanga from January 2005 to December
2006.
• Compare personal respirable coal dust concentrations to Environmental Engineering Dust (EED)
concentrations in five coal mines in Mpumalanga from January 2005 to December 2006.
Methodology
This study is descriptive in nature and was carried out utilizing historical respirable coal dust data from
underground coal bord and pillar production sections. Data was supplied by Collieries Environmental Control Services (CECS) who provided a coal sampling and analysis service to South African collieries.
Data provided was from five large underground coal mines in the Mpumalanga coal fields.
The study population consisted of occupations within the HEG of workers deployed at the coal face who
were linked to Continuous Miner (CM) production activities and results from EED sampling.
Results
When comparing the personal sampling results to EED sampling results for each individual mine, it is
evident that all the mines had lower personal sampling results than EED results, thus establishing a
definite trend. When combining all the mines in the two data sets it is also evident that EED sampling
results are significantly higher than personal sampling results confirming the trend observed on
individual mines. Correlation tests carried out between the two data sets indicated that there is no
correlation between the personal and EED sampling results. The poor correlation between the two data
sets indicates that the EED sampling position is not ideal and does not take account of the actual
contaminant levels leaving the coal-winning heading.
Discussion and conclusion
The DME directive by way of a simple calculation took the countries personal Occupational Exposure
Limit (OEL) of 2 mg/m3 and formulated a limit of 5 mg/m3 for EED sampling results.
Simple extrapolation of the EED results indicates that personal exposure is exceeded more than two-fold
and thus the limit of 5 mg/m3 as set by Directive B7 cannot be compared to the personal respirable coal
dust OEL of 2 mg/m3. The basis of the initial calculation used to derive the 5 mg/m3 limit assumed that
the shift lengths were in the region of 8 hours and cutting times around 40% of the shift, while most coal
mines now have shift lengths ranging from 9 to 10 hours.
In conclusion it is evident that the required limit of 5 mg/m3 as set out by Directive B7 cannot be related
to the personal exposures limit of 2 mg/m3. Poor correlation results observed indicate that the EED
sampling position does not account for the respirable dust concentrations leaving coal-winning headings
and may be affected by the re-circulation of contaminated air over the sampling position. In addition the
EED sampling position does not give an indication of the respirable dust capture efficiency of scrubber fans.

Identiferoai:union.ndltd.org:netd.ac.za/oai:union.ndltd.org:wits/oai:wiredspace.wits.ac.za:10539/7314
Date22 September 2009
CreatorsFerreira, Ernest French
Source SetsSouth African National ETD Portal
LanguageEnglish
Detected LanguageEnglish
TypeThesis
Formatapplication/pdf

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