Environmental health risk assessment evaluation of some default assumptions /

Albering, Harmina Jannette.

January 1998

Proefschrift Universiteit Maastricht. / Met lit. opg., bibliogr. - Met samenvatting in het Nederlands.

Het bezwaar de beleving van leefomgevinghinder in de periode 1870-2000 in de Friese havenstad Harlingen /

Dijkstra, Teunis Jan.

January 2006

Proefschrift Rijksuniversiteit Groningen. / Met lit. opg. - Met samenvatting in het Engels.

Biological markers for exposure to polycyclic aromatic hydrocarbons

Godschalk, Roger Wilhelmus Laurentius.

January 1999

Proefschrift Universiteit Maastricht. / Met bibliogr., lit. opg. - Met samenvatting in het Nederlands.

Underground mine workers' respiratory exposure to selected gasses after the blasting process in a platinum mine / Cecil-Roux Steyn

Steyn, Cecil-Roux

January 2013

Ammonium Nitrate-Fuel Oil (ANFO) is the explosive generally used in the mining industry to blast ore from the rock face. The use and detonation of ANFO explosives in an underground mine is an intrinsically hazardous process. The by-products formed during blasting have been well studied over the years and modern mining techniques and methods have evolved to mitigate the inherent blasting and gas emission risks. However, there is insufficient research and quantitative data on mine workers’ respiratory exposure to blasting gasses under realistic underground conditions. Aim: The objective of this study was to determine whether blasting gasses such as nitric oxide (NO), nitrogen dioxide (NO2) and ammonia (NH3) pose an inhalation health risk to underground mine workers cleaning at the blasting panels approximately three hours after the detonation of ANFO explosives. Scraper Winch Operators’ (SWOs) respiratory exposure to selected blasting gasses was simultaneously sampled by means of active and passive sampling methodologies. Method: Personal exposures to NO, NO2 and NH3 were measured and analysed in accordance with NIOSH methods 6014 and 6015. Along with the active air samplers, respiratory exposure to NO2 and NH3 were measured by means of radial symmetry diffusive samplers (Aquaria® RING). Measurements were taken over an 8-hour period, where this was not applicable; results were time weighed to an average 8-hour exposure concentration in order to compare the Scraper Winch Operators’ (SWOs) respiratory exposure to the Occupational Exposure Limits (OELs) contained in the Regulations of the Mine Health and Safety Act (No. 29 of 1996). Results: The active air sampling results indicated that the SWOs’ respiratory exposure to NO, NO2 and NH3 complied with their respective OELs contained in the Regulations of the Mine Health and Safety Act (No. 29 of 1996). However, one of the SWOs had an exposure which exceeded the action level (50% of OEL) at which level the implementation of control measures are recommended to reduce the SWO’s exposure. Based on the results of the Wilcoxon matched pairs test, statistical significant differences were observed between the exposure results of the two sampling methodologies for NO2 (p = 0.00078) and NH3 (p = 0.044), with the passive diffusive sampling technique under sampling when compared to the active sampling method. This was also confirmed by a Spearman rank order correlation which indicated a poor relationship between the two sampling methods for NO2 (r = -0.323) and NH3 (r = 0.090). Environmental conditions (i.e. temperature and humidity), as presented in an underground mine, may have been a major factor for the variation between the two sampling methods, mostly affecting the passive samplers. Conclusion: It was established that engineering and administrative control measures implemented at the underground mine were effective to control SWOs’ respiratory exposure to NO, NO2 and NH3 below their respective OELs. An acute health risk pertaining the inhalation of blasting gasses was, therefore, not presented to mine workers cleaning at the blasting panels approximately three hours after the detonation of ANFO explosives. However, long-term exposure to blasting gasses at low concentrations may present SWOs with a health risk if such exposures are not adequately controlled or mitigated. The dilution and production of blasting gasses also varied from one blasting level to another. Geological formation, explosive charge-up and loading practices, the amount of water vapour inside the stopes and ventilation parameters are among the factors that may have affected the amount of blasting gasses produced underground. In addition, a drop in the carbon monoxide levels as indicated by the mine’s central gas monitoring system would not necessarily mean a lowering in other blasting gas concentrations (i.e. elevated ammonia gas concentrations as identified in the present study). The personal exposure levels between the active and passive sampling measurements also differed considerably. This may be ascribed to the impact underground mining conditions and processes had on the sampling media as well the complexities involved when sampling blasting gasses in general. / MSc (Occupational Hygiene), North-West University, Potchefstroom Campus, 2014

Blasting gasses

ANFO explosives

Respiratory exposure

Underground

Sampling methodologies

Plofstofgasse

Respiratoriese blootstelling

Ondergronds

Meetmetodes

Underground mine workers' respiratory exposure to selected gasses after the blasting process in a platinum mine / Cecil-Roux Steyn

Steyn, Cecil-Roux

January 2013

Ammonium Nitrate-Fuel Oil (ANFO) is the explosive generally used in the mining industry to blast ore from the rock face. The use and detonation of ANFO explosives in an underground mine is an intrinsically hazardous process. The by-products formed during blasting have been well studied over the years and modern mining techniques and methods have evolved to mitigate the inherent blasting and gas emission risks. However, there is insufficient research and quantitative data on mine workers’ respiratory exposure to blasting gasses under realistic underground conditions. Aim: The objective of this study was to determine whether blasting gasses such as nitric oxide (NO), nitrogen dioxide (NO2) and ammonia (NH3) pose an inhalation health risk to underground mine workers cleaning at the blasting panels approximately three hours after the detonation of ANFO explosives. Scraper Winch Operators’ (SWOs) respiratory exposure to selected blasting gasses was simultaneously sampled by means of active and passive sampling methodologies. Method: Personal exposures to NO, NO2 and NH3 were measured and analysed in accordance with NIOSH methods 6014 and 6015. Along with the active air samplers, respiratory exposure to NO2 and NH3 were measured by means of radial symmetry diffusive samplers (Aquaria® RING). Measurements were taken over an 8-hour period, where this was not applicable; results were time weighed to an average 8-hour exposure concentration in order to compare the Scraper Winch Operators’ (SWOs) respiratory exposure to the Occupational Exposure Limits (OELs) contained in the Regulations of the Mine Health and Safety Act (No. 29 of 1996). Results: The active air sampling results indicated that the SWOs’ respiratory exposure to NO, NO2 and NH3 complied with their respective OELs contained in the Regulations of the Mine Health and Safety Act (No. 29 of 1996). However, one of the SWOs had an exposure which exceeded the action level (50% of OEL) at which level the implementation of control measures are recommended to reduce the SWO’s exposure. Based on the results of the Wilcoxon matched pairs test, statistical significant differences were observed between the exposure results of the two sampling methodologies for NO2 (p = 0.00078) and NH3 (p = 0.044), with the passive diffusive sampling technique under sampling when compared to the active sampling method. This was also confirmed by a Spearman rank order correlation which indicated a poor relationship between the two sampling methods for NO2 (r = -0.323) and NH3 (r = 0.090). Environmental conditions (i.e. temperature and humidity), as presented in an underground mine, may have been a major factor for the variation between the two sampling methods, mostly affecting the passive samplers. Conclusion: It was established that engineering and administrative control measures implemented at the underground mine were effective to control SWOs’ respiratory exposure to NO, NO2 and NH3 below their respective OELs. An acute health risk pertaining the inhalation of blasting gasses was, therefore, not presented to mine workers cleaning at the blasting panels approximately three hours after the detonation of ANFO explosives. However, long-term exposure to blasting gasses at low concentrations may present SWOs with a health risk if such exposures are not adequately controlled or mitigated. The dilution and production of blasting gasses also varied from one blasting level to another. Geological formation, explosive charge-up and loading practices, the amount of water vapour inside the stopes and ventilation parameters are among the factors that may have affected the amount of blasting gasses produced underground. In addition, a drop in the carbon monoxide levels as indicated by the mine’s central gas monitoring system would not necessarily mean a lowering in other blasting gas concentrations (i.e. elevated ammonia gas concentrations as identified in the present study). The personal exposure levels between the active and passive sampling measurements also differed considerably. This may be ascribed to the impact underground mining conditions and processes had on the sampling media as well the complexities involved when sampling blasting gasses in general. / MSc (Occupational Hygiene), North-West University, Potchefstroom Campus, 2014

Blasting gasses

ANFO explosives

Respiratory exposure

Underground

Sampling methodologies

Plofstofgasse

Respiratoriese blootstelling

Ondergronds

Meetmetodes

Perceptions regarding the role of social support in the academic achievement of adolescents exposed to violence / Lelanie Judeel

Judeel, Lelanie

January 2014

The purpose of this study was to explore the perceptions of adolescents, who have been exposed to violence, regarding the role of social support in their academic achievement. A qualitative, collective, within-site case study design was applied to obtain baseline data. The data was gathered through consecutive in-depth individual interviews with two male and six female adolescent learners (between 15 and 17 years of age) in a secondary school in Gauteng. Collages were furthermore used to assist participants with expressing their perceptions on the role that social support played in their academic achievement, despite being exposed to violence in their communities. The study was mainly informed by Bronfenbrenner’s bio-ecological systems theory, but in order to better understand the adolescent as an individual who functions within the ecological systems theory, Erikson’s psycho-social development theory as well as the theory of social support were integrated to understand this complex period of development. Interview data were analysed thematically, whilst shared analysis were utilised to give meaning to the visual data presented in the collages. The results indicate that encouragement to achieve, the provision of care and support to deal with problems in a proactive manner and enabling relationships with significant others facilitated academic achievement despite exposure to violence. Furthermore, positive self-talk, self-discipline and coping behaviours were identified as self-supportive behaviour that was perceived as enabling adolescents to achieve academically. The study indicates that adolescents who achieve academically despite exposure to violence, perceive social support as playing a significant role in the facilitation of academic achievement in these contexts of adversity. It is therefore recommended that significant others in the lives of adolescents should be informed about the important role that their supportive interactions play in the adolescent’s ability to maintain academic achievement. Further research could explore the viability of social support interventions in assisting adolescent learners to achieve their full academic potential, despite exposure to violence. / MA (Research Psychology), North-West University, Potchefstroom Campus, 2014

Social support

Academic achievement

Adolescence

Violence exposure

South Africa

Sosiale ondersteuning

Akademiese prestasie

Adolessensie

Blootstelling aan geweld

Suid-Afrika

Perceptions regarding the role of social support in the academic achievement of adolescents exposed to violence / Lelanie Judeel

Judeel, Lelanie

January 2014

The purpose of this study was to explore the perceptions of adolescents, who have been exposed to violence, regarding the role of social support in their academic achievement. A qualitative, collective, within-site case study design was applied to obtain baseline data. The data was gathered through consecutive in-depth individual interviews with two male and six female adolescent learners (between 15 and 17 years of age) in a secondary school in Gauteng. Collages were furthermore used to assist participants with expressing their perceptions on the role that social support played in their academic achievement, despite being exposed to violence in their communities. The study was mainly informed by Bronfenbrenner’s bio-ecological systems theory, but in order to better understand the adolescent as an individual who functions within the ecological systems theory, Erikson’s psycho-social development theory as well as the theory of social support were integrated to understand this complex period of development. Interview data were analysed thematically, whilst shared analysis were utilised to give meaning to the visual data presented in the collages. The results indicate that encouragement to achieve, the provision of care and support to deal with problems in a proactive manner and enabling relationships with significant others facilitated academic achievement despite exposure to violence. Furthermore, positive self-talk, self-discipline and coping behaviours were identified as self-supportive behaviour that was perceived as enabling adolescents to achieve academically. The study indicates that adolescents who achieve academically despite exposure to violence, perceive social support as playing a significant role in the facilitation of academic achievement in these contexts of adversity. It is therefore recommended that significant others in the lives of adolescents should be informed about the important role that their supportive interactions play in the adolescent’s ability to maintain academic achievement. Further research could explore the viability of social support interventions in assisting adolescent learners to achieve their full academic potential, despite exposure to violence. / MA (Research Psychology), North-West University, Potchefstroom Campus, 2014

Social support

Academic achievement

Adolescence

Violence exposure

South Africa

Sosiale ondersteuning

Akademiese prestasie

Adolessensie

Blootstelling aan geweld

Suid-Afrika

Assessment of dermal exposure and skin condition of refinery workers exposed to selected metals / J.L. du Plessis

Du Plessis, Johannes Lodewykus

January 2010

Aims and objectives: The research aims and objectives of this thesis were: (i) to review literature pertaining to different dermal exposure assessment methods; (ii) to assess dermal exposure of refinery workers to nickel and/or cobalt by making use of skin wipes as a removal method; (iii) to assess concurrently the skin condition of the above mentioned workers by measuring skin hydration, transepidermal water loss (TEWL) and skin surface pH, and (iv) to compare South African skin notations and sensitisation notations with those of other developed countries. Methods: Refinery workers from two base metal refineries participated in this study. Skin condition and dermal exposure was measured on different anatomical areas before, during and at the end of a work shift. Dermal exposure to nickel and/or cobalt was assessed with Ghostwipes TM as a removal method. Wipe samples of potentially contaminated surfaces in the workplace were also collected. Wipes were analysed for nickel and/or cobalt according to NIOSH method 9102, using Inductively Coupled Plasma-Atomic Emission Spectrometry. The assignment and use of skin notations and sensitisation notations in South African legislation and six other developed countries were compared. Results: To date, occupational dermal exposure has been reported for numerous substances by making use of surrogate skin methods (interception methods), removal methods and fluorescent tracer methods (in situ detection methods). From published literature it is evident that skin (dermal) wipes, as a removal method, are the most appropriate method to assess dermal exposure to metals. Varying degrees of skin dryness (low hydration indices) and impaired barrier function (high TEWL indices) are reported, with the hands being implicated the most. However, normal skin condition is also reported for some anatomical areas. Skin surface pH for all anatomical areas sampled decreased significantly during the shift, but remained in normal range. Dermal exposure to nickel occurred during the shift at the electro-winning plant of one refinery, while dermal co-exposure to cobalt and nickel occurred at the cobalt plant of the other refinery. At both of the refineries, cobalt and/or nickel was collected from the workers’ skin even before the shift. Also, dermal exposure to these metals was highly variable between individual workers. Skin notations in South African legislation had a mean agreement of between 42.9% and 45.8% with other countries, while agreement for sensitisation notations was only 3.6% between countries. / Thesis (Ph.D. (Occupational Hygiene))--North-West University, Potchefstroom Campus, 2011.

Dermal exposure

Skin condition

Nickel

Cobalt

Refinery

Skin notation

Sensitisation notation

Dermale blootstelling

Velkondisie

Nikkel

Kobalt

Raffinadery

Velnotering

Sensitiseringsnotering

Assessment of dermal exposure and skin condition of refinery workers exposed to selected metals / J.L. du Plessis

Du Plessis, Johannes Lodewykus

January 2010

Aims and objectives: The research aims and objectives of this thesis were: (i) to review literature pertaining to different dermal exposure assessment methods; (ii) to assess dermal exposure of refinery workers to nickel and/or cobalt by making use of skin wipes as a removal method; (iii) to assess concurrently the skin condition of the above mentioned workers by measuring skin hydration, transepidermal water loss (TEWL) and skin surface pH, and (iv) to compare South African skin notations and sensitisation notations with those of other developed countries. Methods: Refinery workers from two base metal refineries participated in this study. Skin condition and dermal exposure was measured on different anatomical areas before, during and at the end of a work shift. Dermal exposure to nickel and/or cobalt was assessed with Ghostwipes TM as a removal method. Wipe samples of potentially contaminated surfaces in the workplace were also collected. Wipes were analysed for nickel and/or cobalt according to NIOSH method 9102, using Inductively Coupled Plasma-Atomic Emission Spectrometry. The assignment and use of skin notations and sensitisation notations in South African legislation and six other developed countries were compared. Results: To date, occupational dermal exposure has been reported for numerous substances by making use of surrogate skin methods (interception methods), removal methods and fluorescent tracer methods (in situ detection methods). From published literature it is evident that skin (dermal) wipes, as a removal method, are the most appropriate method to assess dermal exposure to metals. Varying degrees of skin dryness (low hydration indices) and impaired barrier function (high TEWL indices) are reported, with the hands being implicated the most. However, normal skin condition is also reported for some anatomical areas. Skin surface pH for all anatomical areas sampled decreased significantly during the shift, but remained in normal range. Dermal exposure to nickel occurred during the shift at the electro-winning plant of one refinery, while dermal co-exposure to cobalt and nickel occurred at the cobalt plant of the other refinery. At both of the refineries, cobalt and/or nickel was collected from the workers’ skin even before the shift. Also, dermal exposure to these metals was highly variable between individual workers. Skin notations in South African legislation had a mean agreement of between 42.9% and 45.8% with other countries, while agreement for sensitisation notations was only 3.6% between countries. / Thesis (Ph.D. (Occupational Hygiene))--North-West University, Potchefstroom Campus, 2011.

Dermal exposure

Skin condition

Nickel

Cobalt

Refinery

Skin notation

Sensitisation notation

Dermale blootstelling

Velkondisie

Nikkel

Kobalt

Raffinadery

Velnotering

Sensitiseringsnotering

Dermal exposure to platinum group metals at a precious metal refinery : a pilot study / Marilize Barnard

Barnard, Marilize

January 2014

Background: Workers in a platinum group metals (PGMs) refinery are potentially exposed to various precious metals (iridium, osmium, palladium, platinum, rhodium and ruthenium) and their metal-salt compounds which may cause rhinitis, asthma, contact urticaria and conjunctivitis. Some cases revealed that sensitisation occurred in employees where it was not possible to detect any airborne soluble platinum or where the respiratory soluble platinum exposure was below the occupational exposure limit. It is unclear whether respiratory exposure or a combination of respiratory and dermal exposure may be involved in sensitisation and the possible elicitation of skin symptoms. Objectives: To determine if dermal exposure to PGMs took place during the refining process and in the administration area by using a removal method and to compare dermal exposure on the different anatomical areas and in two different working areas, Areas A and B for each of the PGMs. Methods: Dermal exposure samples were collected with a removal method using GhostwipesTM. The samples were collected from the palm of the hands, the wrists and the necks of the workers, before the shift started, before tea time, before lunch time and after the shift ended. The skin wipes were analysed for the PGMs (iridium, osmium, palladium, platinum, ruthenium and rhodium) according to Methods for the Determination of Hazardous Substances (MDHS) method 46/2, using Inductively Coupled Plasma-Mass Spectrometry. Results: No published data is available on occupational dermal exposure to PGMs in a precious metals refinery. This study proved that dermal exposure to PGMs in the refinery took place and was quantified. The PGM dermal exposure results in general, were very low (measured in nano grams), with platinum having the overall highest exposure. Exposure also occurred the most frequently during the last two intervals of the day, before lunch time and at the end of the shift. Exposure on all three the anatomical areas that were tested in the study, varied much with the palm of the hands having the highest exposure levels. There were also variations in exposure between areas A and B due to the fact that the processes in these two areas differ. Conclusions: It was confirmed that dermal exposure to PGMs took place at the precious metals refinery. The highest exposure took place before lunch time and towards the end of the shift. The metal to which the workers were exposed the most was platinum and the production area where the workers had the highest exposure to most of the metals was Area B. / MSc (Occupational Hygiene), North-West University, Potchefstroom Campus, 2015

Iridium

Osmium

Palladium

Platinum

Rhodium

Ruthenium

Skin exposure

Sensitisation

Wipe sampling

Dermal

Rodium

Rutenium

Vel blootstelling

Sensitisering

Vel veeg metode

Dermaal