Determining mutual challenges faced by opencast mines and their women employees / Marna Roos

Roos, Marna

January 2014

Throughout history various discriminatory inequalities have appeared which are based on traditional beliefs and stereotype principles. As with many other social structures, this has brought with it the challenge of overcoming these inequalities in order to empower those afflicted by unfair treatment and to eradicate both the social and economic effects it has had on society at large. Of the many different groups that have been discriminated against, often for reasons of race and belief, one of the most discriminated against is women. This is clear when one takes into account the numerous struggles over the course of time women faced for the right to take part in the very basic roles of society. The right to vote, the right to freedom of speech and even the simple freedom for women not to have their attire prescribed by what their culture deems socially acceptable. When taking this into account, it comes as no surprise that women have to overcome enormous obstacles when competing for fair employment. Even today the challenges persist in our well-developed and socially advanced labour market. The employment of women in the mining industry serves as the ideal example of current inequalities that need to be overcome if we are to reap both the social and economic rewards of the equal employment of women. The objective of this study is to identify and discuss these challenges, identify how to overcome them, the benefits of doing so and the disadvantages and repercussions of not addressing them. The findings from the empirical study, based on the sample size of 65 women currently employed in the mining sector (n=65), which have been subdivided into various categories, enabled the researcher to draw conclusions and make recommendations. The challenges that were mainly identified included health and safety, recruitment and training, retention strategy and change management. Health and safety challenges refer to women‟s perceived vulnerability in a physically demanding environment. The recruitment and training of women and the challenges that organisations face when recruiting from small skills pools require organisations to develop women‟s skills for the mutual benefit of both women and the organisation. These challenges may be proliferate due to the additional challenges that organisations face when attempting to retain the skills they have developed and the investment they have made. The resistance to change that exists within large mining organisations when women are introduced into environments previously reserved for men needs to be strategically managed. In conclusion, it was found that involving the Human Resource to implement various strategies from the recruitment of women in mining, to the development, retention and the placement of women in senior positions as well as the monitoring and constant evaluation of the progress of these strategies, the current challenges as set out above can be overcome. Furthermore, it has been concluded that it greatly depends on the top and core management of companies in the mining sector to assist in the implementation of various strategies to have these feats succeed. / MBA, North-West University, Potchefstroom Campus, 2015

Women

Inequalities

Challenges

Opencast Mining

Determining mutual challenges faced by opencast mines and their women employees / Marna Roos

Roos, Marna

January 2014

Throughout history various discriminatory inequalities have appeared which are based on traditional beliefs and stereotype principles. As with many other social structures, this has brought with it the challenge of overcoming these inequalities in order to empower those afflicted by unfair treatment and to eradicate both the social and economic effects it has had on society at large. Of the many different groups that have been discriminated against, often for reasons of race and belief, one of the most discriminated against is women. This is clear when one takes into account the numerous struggles over the course of time women faced for the right to take part in the very basic roles of society. The right to vote, the right to freedom of speech and even the simple freedom for women not to have their attire prescribed by what their culture deems socially acceptable. When taking this into account, it comes as no surprise that women have to overcome enormous obstacles when competing for fair employment. Even today the challenges persist in our well-developed and socially advanced labour market. The employment of women in the mining industry serves as the ideal example of current inequalities that need to be overcome if we are to reap both the social and economic rewards of the equal employment of women. The objective of this study is to identify and discuss these challenges, identify how to overcome them, the benefits of doing so and the disadvantages and repercussions of not addressing them. The findings from the empirical study, based on the sample size of 65 women currently employed in the mining sector (n=65), which have been subdivided into various categories, enabled the researcher to draw conclusions and make recommendations. The challenges that were mainly identified included health and safety, recruitment and training, retention strategy and change management. Health and safety challenges refer to women‟s perceived vulnerability in a physically demanding environment. The recruitment and training of women and the challenges that organisations face when recruiting from small skills pools require organisations to develop women‟s skills for the mutual benefit of both women and the organisation. These challenges may be proliferate due to the additional challenges that organisations face when attempting to retain the skills they have developed and the investment they have made. The resistance to change that exists within large mining organisations when women are introduced into environments previously reserved for men needs to be strategically managed. In conclusion, it was found that involving the Human Resource to implement various strategies from the recruitment of women in mining, to the development, retention and the placement of women in senior positions as well as the monitoring and constant evaluation of the progress of these strategies, the current challenges as set out above can be overcome. Furthermore, it has been concluded that it greatly depends on the top and core management of companies in the mining sector to assist in the implementation of various strategies to have these feats succeed. / MBA, North-West University, Potchefstroom Campus, 2015

Women

Inequalities

Challenges

Opencast Mining

Noise hazard assessment in surface mine design

Brockdorff-Ahlefeldt, Cay von

January 1995

No description available.

620.23

Opencast mining; Expert systems

The assessment of experimental techniques developed to assist the rehabilitaion of restored opencast coal mining land

Scullton, J.

January 1984

No description available.

631.4

Soil recovery/opencast mining

Exposure of earth moving equipment operators to vibration and noise at an opencast coal mine / Mandi Groenewald

Groenewald, Mandi

January 2013

The phrase “miner” is comparatively non-specific as mining is seen as a multi-disciplinary industry that includes several diverse professions and trades (Donoghue, 2004). One of the functions within mining is the operation of earth moving equipment (EME) such as haul trucks, dozers, excavators and graders. EME are generally used to shift large amounts of earth, dig foundations and landscape areas. In this study whole-body vibration (WBV) and noise exposure of earth moving equipment (EME) operators were assessed, at an opencast coalmine in South Africa. The aim was to evaluate and quantify the levels of exposure in different EME types, as well as to compare old with new EME, in order to estimate if machine hours contribute to higher noise and vibration levels. WBV and noise levels of the Production and Rehabilitation operations were compared, to determine whether different activities led to different exposures. Internationally accepted standardised methods, ISO 2631-1 for WBV and SANS 10083:2012 for noise were followed and correctly calibrated instrumentation was used. WBV measurements were conducted with a tri-axial seat pad accelerometer (SVAN 958) and personal noise dosimeters (Casella 35 X) were used for noise measurements. Measurements were taken over a period of four months. With regards to the European Union (EU) limit (1.15 m/s2) and the EU action limit (0.5 m/s2) it was noted that operators of EME within the Production operation were not exposed to WBV levels above the EU limit, but 77% of these operators were exposed to WBV levels above the EU action limit. It was also evident that 45% of operators’ vibration exposure levels were within the Health Guidance Caution Zone (HGCZ) of 0.45 – 0.90 m/s2. Within the Rehabilitation operation, 9% of operators were exposed to WBV levels above the EU limit and 55% above the EU action limit. Furthermore 50% was within the HGCZ. With regards to the noise Occupational exposure limit (OEL) of 85 dB(A) as stated by the Mine Health and Safety Regulations (MHSR) it was noted that 27% of operators within the Production operation were exposed to noise levels above the limit and for operators within the Rehabilitation operation 14% were reported to be exposed at or above the limit. Statistically significant difference in noise exposure was found between the Production operation and Rehabilitation operation. Results indicated that the majority of EME operators were exposed to high noise levels, in some cases exceeding the 85 dB(A) OEL. A significant positive correlation was found between noise exposure levels and machine hours. Thus higher noise levels were observed as machine operating hours increased. It was found that operators were exposed predominantly to vibration and noise levels below the limits. However the Dozer group within the Production and Rehabilitation operations in some cases exceeded the vibration and noise legal limit. High exposure levels within the Dozer group can be attributed to the fact that these EME types mostly perform activities in uneven areas and the tracks on which these Dozers move also contribute to higher vibration levels due to a lack of a suspension. Controls should be implemented as far as is reasonably practicable to ensure that operators are not exposed above recommended or permissible levels for each hazard. Continuous improvement of the maintenance plan for all EME and regularly grading and maintaining travelling ways are some of the controls that will contribute to lower vibration and noise levels. Operators exposed to high noise levels should use hearing protective devices as an early on preventative measure to reduce noise exposure levels. / MSc (Occupational Hygiene), North-West University, Potchefstroom Campus, 2014

Whole-body vibration

Noise

Earth moving equipment operators

Opencast mining

Heelliggaamvibrasie

Geraas

Grondverskuiwing

Oopgroef mynbou

Grondverskywingsmasjiene

Exposure of earth moving equipment operators to vibration and noise at an opencast coal mine / Mandi Groenewald

Groenewald, Mandi

January 2013

The phrase “miner” is comparatively non-specific as mining is seen as a multi-disciplinary industry that includes several diverse professions and trades (Donoghue, 2004). One of the functions within mining is the operation of earth moving equipment (EME) such as haul trucks, dozers, excavators and graders. EME are generally used to shift large amounts of earth, dig foundations and landscape areas. In this study whole-body vibration (WBV) and noise exposure of earth moving equipment (EME) operators were assessed, at an opencast coalmine in South Africa. The aim was to evaluate and quantify the levels of exposure in different EME types, as well as to compare old with new EME, in order to estimate if machine hours contribute to higher noise and vibration levels. WBV and noise levels of the Production and Rehabilitation operations were compared, to determine whether different activities led to different exposures. Internationally accepted standardised methods, ISO 2631-1 for WBV and SANS 10083:2012 for noise were followed and correctly calibrated instrumentation was used. WBV measurements were conducted with a tri-axial seat pad accelerometer (SVAN 958) and personal noise dosimeters (Casella 35 X) were used for noise measurements. Measurements were taken over a period of four months. With regards to the European Union (EU) limit (1.15 m/s2) and the EU action limit (0.5 m/s2) it was noted that operators of EME within the Production operation were not exposed to WBV levels above the EU limit, but 77% of these operators were exposed to WBV levels above the EU action limit. It was also evident that 45% of operators’ vibration exposure levels were within the Health Guidance Caution Zone (HGCZ) of 0.45 – 0.90 m/s2. Within the Rehabilitation operation, 9% of operators were exposed to WBV levels above the EU limit and 55% above the EU action limit. Furthermore 50% was within the HGCZ. With regards to the noise Occupational exposure limit (OEL) of 85 dB(A) as stated by the Mine Health and Safety Regulations (MHSR) it was noted that 27% of operators within the Production operation were exposed to noise levels above the limit and for operators within the Rehabilitation operation 14% were reported to be exposed at or above the limit. Statistically significant difference in noise exposure was found between the Production operation and Rehabilitation operation. Results indicated that the majority of EME operators were exposed to high noise levels, in some cases exceeding the 85 dB(A) OEL. A significant positive correlation was found between noise exposure levels and machine hours. Thus higher noise levels were observed as machine operating hours increased. It was found that operators were exposed predominantly to vibration and noise levels below the limits. However the Dozer group within the Production and Rehabilitation operations in some cases exceeded the vibration and noise legal limit. High exposure levels within the Dozer group can be attributed to the fact that these EME types mostly perform activities in uneven areas and the tracks on which these Dozers move also contribute to higher vibration levels due to a lack of a suspension. Controls should be implemented as far as is reasonably practicable to ensure that operators are not exposed above recommended or permissible levels for each hazard. Continuous improvement of the maintenance plan for all EME and regularly grading and maintaining travelling ways are some of the controls that will contribute to lower vibration and noise levels. Operators exposed to high noise levels should use hearing protective devices as an early on preventative measure to reduce noise exposure levels. / MSc (Occupational Hygiene), North-West University, Potchefstroom Campus, 2014

Whole-body vibration

Noise

Earth moving equipment operators

Opencast mining

Heelliggaamvibrasie

Geraas

Grondverskuiwing

Oopgroef mynbou

Grondverskywingsmasjiene