TY - JOUR
T1 - Solar energy industry workers under climate change: A risk assessment of the level of heat stress experienced by a worker based on measured data
AU - Samaniego-Rascón, Danyela
AU - Gameiro da Silva, Manuel C.
AU - Ferreira, Almerindo D.
AU - Cabanillas-Lopez, Rafael E.
PY - 2019/10/1
Y1 - 2019/10/1
N2 - Due to production requirements, solar facilities are usually located in sunny environments where workers face hot weather. Heat is seen as an environmental and occupational hazard with its physiological effects due to high-temperature exposures. Among the heat-related effects are, dehydration, heat exhaustion, heat stroke, and death. The heat-related impairments on health could also negatively impact the performance of the workers and simultaneously, decrease their productivity. While climate change the already known effects on health could become more frequent, prevalent, and spread. The present investigation provides an analysis of the level of heat stress experienced by a worker based on Wet-bulb Globe Temperature measurements. The study was conducted at a solar energy facility in Mexico. The results show that sometimes workers develop their tasks under conditions above the alert limits of exposure. Solar workers without acclimatization and heavy workload requirements (400 kcal/h) need to rest 75% from an hour and 50% when the workload is moderate (300 kcal/h). Consequently, the percentage of work capacity was established for different scenarios. The period of risk alert during a recorded heat wave, where the worker would mainly require to stop all the physical activities, started at 6:30 am and ended at 6:50 pm. In the final section, preventive measures are suggested. This research aims to contribute with information directed to environmental scientists, standard/policy developers and the solar industry that could improve/develop safety procedures directed toward the heat-related occupational health and safety within solar energy applications under the climate change conditions.
AB - Due to production requirements, solar facilities are usually located in sunny environments where workers face hot weather. Heat is seen as an environmental and occupational hazard with its physiological effects due to high-temperature exposures. Among the heat-related effects are, dehydration, heat exhaustion, heat stroke, and death. The heat-related impairments on health could also negatively impact the performance of the workers and simultaneously, decrease their productivity. While climate change the already known effects on health could become more frequent, prevalent, and spread. The present investigation provides an analysis of the level of heat stress experienced by a worker based on Wet-bulb Globe Temperature measurements. The study was conducted at a solar energy facility in Mexico. The results show that sometimes workers develop their tasks under conditions above the alert limits of exposure. Solar workers without acclimatization and heavy workload requirements (400 kcal/h) need to rest 75% from an hour and 50% when the workload is moderate (300 kcal/h). Consequently, the percentage of work capacity was established for different scenarios. The period of risk alert during a recorded heat wave, where the worker would mainly require to stop all the physical activities, started at 6:30 am and ended at 6:50 pm. In the final section, preventive measures are suggested. This research aims to contribute with information directed to environmental scientists, standard/policy developers and the solar industry that could improve/develop safety procedures directed toward the heat-related occupational health and safety within solar energy applications under the climate change conditions.
KW - Climate change
KW - Climatic health hazards
KW - Heat stress
KW - Heat wave
KW - Occupational health and safety
KW - Solar energy
KW - Climate change
KW - Climatic health hazards
KW - Heat stress
KW - Heat wave
KW - Occupational health and safety
KW - Solar energy
UR - https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85065435035&origin=inward
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U2 - 10.1016/j.ssci.2019.04.042
DO - 10.1016/j.ssci.2019.04.042
M3 - Article
SN - 0925-7535
VL - 118
SP - 33
EP - 47
JO - Safety Science
JF - Safety Science
ER -