Occupational heat stress
Occupational heat stress is the net load to which a
Heat stress causes illness but also may account for an increase in
Risk factors
A study estimates that climate change is to blame for an additional 25 billion working hours lost annually in India from 2001 until 2020 compared to the previous 20 years.[12]
Acclimatization
According to the National Institute for Occupational Safety and Health (NIOSH), acclimatization is a biological process that an individual will go through to adjust to a stimulus following continued exposure.[13] Physiologically, acclimatization to heat will allow a worker's body to more efficiently cool itself when exposed to high temperatures. When a worker has adjusted to working in a hotter environment, they will have a lower heart rate, earlier onset of sweating, and increased blood flow to blood vessels near the skin, allowing their body to more efficiently cool itself than a worker who is not acclimatized.[13][14] (see below section on acclimatization schedules for specific processes).
Examples of high risk occupations
Workers in many occupations are at high risk for exposure to heat stress. Especially vulnerable are outdoor workers who have highly physical tasks to complete, such as
Symptoms of heat stress
The Signs and Symptoms of Heat Illness is intended to acquaint participants with OSHA's guidelines for heat-related injuries on the job. When someone is exposed to hot conditions, they will begin to
Heat exhaustion
When a person is experiencing heat exhaustion, they will be actively and heavily sweating, though their skin may feel cool and appear pale.[21] If their temperature is taken, it could be normal or slightly high, and their pulse will be fast, but it may be difficult to detect or feel through the skin.[20] Additionally, the person may exhibit a number of different symptoms such as headaches, muscle cramps, and fatigue, as well as nausea, vomiting, and in extreme cases, fainting.[20][21]
If a worker is exhibiting these symptoms, it is important that they take a break from work to sit in a cool place, use cool, damp towels on their head and neck to further cooling, and sip water slowly as they recover.[21] If a worker does not recover within an hour or continues to vomit, it is important to seek medical attention for them quickly.[21]
Heat stroke
If a worker begins to feel the signs of heat stroke from over exertion in a high temperature environment, they will normally have a very high temperature, which can be measured with a thermometer.[21] Their skin could be hot to the touch and damp with sweat, though they will not be actively sweating.[22] If their pulse is taken, it will be fast and easy to detect.[20] Outwardly, the worker could show signs of dizziness and confusion, and they may have digestive discomfort and nausea. In severe cases, workers can pass out.[21]
If a worker is displaying these symptoms, it is important to call 911 to get them immediate medical attention.[21] Additionally, helping the person move to a cooler place and covering their head and neck in cool, damp cloths can help while waiting for emergency services to arrive. It is important to wait for a medical professional to see them before asking them to drink a lot of water.[21]
Measurement and monitoring
Measurements
NIOSH has set Wet Bulb Globe Temperature (WBGT)-based Recommended Alert Limits (RALs) for unacclimatized workers and Recommended Exposure Limits (RELs) for acclimatized workers to use in determining, monitoring, and responding to the risk of heat exposure and related impacts.[14] While different ranges of temperatures are used to determine what types of protective action should be implemented, there is no universal safe limit applied across all occupational settings. This is because safety will depend on factors specific to the environments and tasks of a specific job, as well as the workers' physical health and fitness.[23]
There are many different ways to measure temperature. Typically, a
Additionally, some sources also report wet-bulb temperature, which is considered an informative measure for individuals who will be working in direct sunlight.[25] This measure takes into account both temperature and humidity, but also includes measures of wind speed, cloud cover, and angle of the sun at different times of the day.[25]
OSHA uses a measure called the Adjusted Air Temperature to determine how often workers should be monitored, which involves the equation:[26]
Where T is temperature measured in degrees Fahrenheit (°F) and percent sunshine is measured on a spectrum from 100% (no clouds, noticeable shadows) to 0% (total cloud cover, no shadows).[26]
Monitoring
NIOSH and OSHA have also created a Heat Index App for mobile devices that provides information on temperature, humidity, risk of heat illness, as well as hourly forecasts of temperature and information on how to prevent and treat heat illnesses.[27]
Prevention
Employers can establish prevention programs, which focus on having protocols to gradually increases workloads and concede on allowing on more breaks for new hired workers.[28] Employers can control heat stress through engineering controls, work practices, providing training, implementing an acclimatization schedule, providing water and encouraging workers to drink often, and ensuring workers take appropriate rest breaks to cool down.[29]
Engineering controls
Employers can provide air conditioners for indoor work spaces and for indoor break areas. Fans can also be used together with air conditioners, and misting fans can be used outside for added cooling. Additionally, increasing building ventilation and improving the insulation of hot surfaces will reduce indoor temperatures.[30] If all work is completed outdoors, a shaded area should be provided with ample water for workers to take breaks often.[31]
Work practices
Ample breaks with space provided in shaded or cooled areas are important for preventing heat stress related illnesses. Employers should also supply water for workers throughout the day, as workers need to drink more water when working in hot environments than they would otherwise.[7] Additionally, on particularly hot days, limiting high-exertion tasks as much as possible is important for keeping a worker's metabolic temperature down.[11]
Training
All employees should be trained to recognize the symptoms of heat stress. Supervisors should monitor their employees throughout the day for these symptoms and, for larger teams, a buddy system can be used to group workers to monitor each other for signs of heat illness.[11] Additionally, informing workers about their working conditions and risk of heat illness is important, specifically in making sure that everyone understands what the heat index means and what extra precautions to take during higher risk periods.[32]
Acclimatization schedules
Acclimatization can occur over different time periods for different people, but NIOSH recommends allowing workers to be exposed to gradually higher levels of heat over 7–14 days for acclimatization. New workers without recent exposure to heat may require additional time to adjust.[13] On the first day of an acclimatization process, workers without previous heat exposure should be asked to complete, at most, 20% of their typical workday. After this, their workload can increase by 20% for each day of the process.[13] For workers with previous exposure working in high temperature settings, acclimatization can occur as fast as four days, starting with workers completing 50% of their typical work duration on the first day.[13] NIOSH strongly suggests that workers who are currently adjusting to new conditions should be supervised closely for signs of heat stress, especially those who may adjust slower due to age, pre-existing health conditions, or lower levels of physical fitness.[11] A worker's level of acclimatization must also be maintained, and if workers are absent from the working conditions for more than a week, they will need to begin the acclimatization process again.[13][11]
Occupational standards
International
International Organization for Standardization helps set standards for monitoring environments, analyzing data, and interpreting results.[33]
United States
Section 5(a)(1) of the Occupational Safety and Health Act of 1970 declares that "Each employer shall furnish to each of his employees employment and a place of employment which are free from recognized hazards that are causing or are likely to cause death or serious physical harm to his employees."[6][34]
The Mine Safety and Health Administration provides guidelines and recommendations to employers for preventing heat stress among workers. There guidelines and recommendations are not enforced regulations, but instead completely voluntary.[6][35]
National Institute for Occupational Safety and Health (NIOSH) conducts research on occupational hazards such as heat stress in order to provide better intervention methods and protect workers.[2]
Only three of the fifty states have created worker regulations regarding heat: California, Washington, and Minnesota.[6] California Code of Regulations states that employers of high risk outdoor workers are entitled to protection against heat. The employer must provide access to water and shade, practice high heat procedures, practice emergency response procedures, and practice acclimatization methods.[6][17] Washington State Legislature states that employers of high risk outdoor workers follow regulations to prevent heat stress.[6] Minnesota Administrative Rules state that indoor ventilation and temperature are regulated to prevent heat stress.[6]
NIOSH recommended standard
Beginning in 1972, NIOSH published a recommended standard for hot work environments, and has periodically revised to take new scientific findings into account.[36] The intent of the NIOSH Recommended Standard for Occupational Exposure to Heat and Hot Environments is to prevent injury, disease, death, and reduced productivity.[36] The recommendations include workplace limits and surveillance, medical monitoring, surveillance of heat-related sentinel health events, posting of hazardous areas, protective clothing and equipment, worker information and training, control of heat stress, and record keeping.[36]
Control of heat stress
Control of heat stress has recommended general requirements, engineering controls, work and hygienic practices, and a heat alert program.[36]
General Requirements
NIOSH recommends that every employer should create and implement a written program aimed at reducing heat exposures. Engineering and work practice controls should be used to reduce exposures, and a heat alert program should be implemented.[36]
Engineering Controls
Air temperatures should be reduced so it does not exceed skin temperatures.
Work and Hygienic Practices
The time workers spend in hot environments should be limited, with an increase of recovery time spent in cool environments. Use of more efficient procedures and tools is beneficial to reducing metabolic demands of the job. Heat tolerance may be increased by implementing a heat tolerance plan and increasing physical fitness. Employees should be trained to recognize and treat the early signs and symptoms of heat illnesses, and employers should provide cool water for their employees.[36]
Heat Alert Program
Heat alert programs should be developed for implementation when hotter than normal temperatures, or a heat wave occurs.[36]
See also
External links
- Working in heat, Safe Work Australia
- First aid for heat-related illness, Safe Work Australia
- Heat stress, CDC
References
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- ^ Publishing, Harvard Health. "10 types of medications that should keep you in the shade this summer". Harvard Health. Retrieved 2020-11-11.
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- ^ MacNamara, Kelly (2022-01-13). "Climate change worsening toll of humid heat on outdoor workers: study". phys.org. Retrieved 2023-01-20.
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