Protecting Your Workers From The Heat
By JIM NEELY
Safety Coordinator
There are four environmental factors that can cause heat stress in a hot work area. These are (1) temperature; (2) radiant heat from the sun or a furnace; (3) humidity; and (4) air velocity. The level of heat stress a person encounters depends on his or her age, weight, level of fitness, medical condition, and acclimatization to the heat. Heat stress occurs when body muscles are being used for physical labor and less blood is available to flow to the skin and release the heat. For more detailed information, a 15-page booklet titled “Working in Hot Environments” is available from:
National Institute for Occupational Safety and Health (NIOSH), 4676 Columbia Parkway, Cincinnati, Ohio 45226 Phone: (800) 356-4674.
What are some of the risks of heat stress?
- Rise in body temperature and heat rate.
- Loss of concentration and difficulty in focusing on a task.
- Increased irritability or sickness.
- Little or no desire to drink.
- Fainting and possible death if person is not removed from the source of the heat stress.
How can you reduce the risk of heat stress?
- Provide water and encourage employees to drink (this helps to replace fluids lost through sweating).
- Train and educate workers to recognize heat stress symptoms.
- Train first aid workers to recognize and treat heat stress disorders.
- Ensure that the names of staff trained in first aid are known to all workers.
- Encourage employees to move to a cooler place, find shade, and rest during their breaks.
- Allow employees to slow the work pace or reduce the workload and to stop and rest if they become extremely uncomfortable.
- Encourage employees to wear appropriate clothing (cotton garments) and to use sunscreen, hats, and sunglasses.
- Be aware that older workers, obese employees, and people on medication are at greater risk for heat stress.
What are some of the symptoms of heat stress?
HEAT STROKE is the most serious health problem for workers in a hot environment is caused by the body’s failure to regulate its core temperature. Seating stops and the body can no longer release excess heat. Victims of heat stroke usually die unless treated promptly. Signs include:
- Mental confusion, delirium, loss of consciousness, convulsions, or coma.
- Body temperature of 106 F or higher.
- Hot, dry skin that may be red, mottled, or bluish.
How can heat stroke be treated? Prompt first aid can prevent permanent injury to the brain and other vital organs. While awaiting medical help, the victim should be moved to a cool area. The victim’s clothing should be soaked with cool water and he or she should be fanned vigorously to increase cooling.
HEAT EXHAUSTION results from loss of fluid through sweating and from not drinking enough replacement fluids. The worker still sweats but experiences extreme weakness or fatigue, giddiness, nausea, or headache. The skin is clammy and moist, while body temperatures are normal or slightly elevated.
How can heat exhaustion be treated? The victim should rest in a cool place and drink water or an electrolyte solution, such as Gatorade or similar beverages used by athletes to restore potassium and salt. Sever cases, in which the victim vomits or loses consciousness, may require longer treatment under medical supervision.
HEAT CRAMPS, painful spasms of the muscles, are caused by the body’s loss of salt.
How can heat cramps be treated? As in the case of heat exhaustion, a victim of heat cramps should drink an electrolyte solution such as Gatorade. Seek medical attention for the victim in the case of severe cramping.
FAINTING can occur when a worker is unacclimatized to a hot environment.
How can fainting be treated? At first, allow the victim to lie down on his or her back. When consciousness has been regained, the victim should usually recover after a brief period of walking around slowly.
HEAT RASH, also known as prickly heat, can be extensive and can be complicated by infection. Heat rash can be so uncomfortable that sleep is disrupted. It can impede a worker’s performance and can even result in a temporary total disability.
How can heat rash be treated? Place the victim in a cool place and allow he skin to dry.
Information contained in this fact sheet was obtained from U.S. Department of Labor Fact Sheet No. OSHA 93-16. This fact sheet provides a general description only and does not carry the force of legal opinion.
Source upon requst
Safety Practices for Drywalling
By JUDY KERRY
Contributing Writer
Construction drywall activities are not only physically demanding, they can also be dangerous, when performed at heights. And, because drywall work is usually one of the last activities on a construction project, they’re often done under deadline pressure. No matter what the drywall activity or its location; worker safety should be the number one priority.
Workers must have the physical stamina to lift, cut, and maneuver heavy, awkward sheets of drywall and fix them in place. If workers are in good physical condition, use proper lifting techniques, and work in pairs, they will reduce their chance of injury and strain. Using seam taping and sanding tools with spring-assisted or powered systems can make overhead finishing work easier and ergonomically safe. Completing work one task at a time (hanging, taping, finishing, etc.) may be efficient, but is harder on the body; completing one area at a time allows workers to rotate tasks and give muscles a break.
Whenever drywall activities create dust, safety glasses and respirators or dust masks should be used to protect workers’ eyes and lungs. Such activities include sheetrock cutting where gypsum dust can be released or when dry mixing joint compounds whose dust can become airborne. In the latter instance, pre-mixed compounds can reduce dust exposure. And, proper worksite ventilation can reduce the dust created when sanding finished joints.
Electrical safety should be considered when drywallers are fastening sheetrock to wall frames. Workers should use caution around interior wall wiring and ensure that electric boxes have proper shielding to prevent screws and nails from penetrating them. Powered nail guns, fasteners, and drills should be properly grounded and in good working order to reduce the risk of electric shock. Other tools, especially cutting tools, should be in good working order and used properly.
When drywalling is done at heights to install tall walls and ceilings, workers need to use extra caution to prevent falls. Ladders can be used, if the work can be done safely from them and all ladder safety rules are followed. However, lean-to or jack scaffolds, shore scaffolds, nailed brackets, loose tile, loose brick, loose blocks, and other unstable objects cannot be used as working platforms or for supports. Stilts should never be used due to their instability. Sturdy scaffolds or steps that are at least 20 inches wide provide safe, stable working platforms when installed and used correctly.
Finally, the need for speed is never an excuse to forget safety. It’s as plain as the writing on the wall, good planning and following safety procedures give a drywalling jobs a smooth and safe finish.
7/05 (c) 2005 State Compensation Insurance Fund