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Health hazard evaluation report: HETA-2000-0061-2885, United States Air Force, Seymour Johnson Air Force Base, Goldsboro, North Carolina.
Krake AM; McCullough JE; King BS
Cincinnati, OH: U.S. Department of Health and Human Services, Public Health Service, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, HETA 2000-0061-2885, 2002 Dec; :1-25
The National Institute for Occupational Safety and Health (NIOSH) received a health hazard evaluation (HHE) request from the management of the United States Air Force Institute for Environmental, Safety, and Occupational Risk Analysis (AFIERA), Brooks Air Force Base (AFB), San Antonio, Texas. The request indicated that Air Force recruits employed as aircraft fuel systems inspection and repair workers at Seymour Johnson AFB, Goldsboro, North Carolina, were exposed to heat stress, jet fuel, and jet fuel vapors in confined spaces (aircraft fuel tanks). The employees reported experiencing dizziness, lethargy, skin irritation, and a 'jet-fuel taste' during and long after exposure to jet fuel. The requesters asked NIOSH to evaluate the heat stress aspects of the employee complaints and make recommendations to prevent heat illness among the employees. The evaluation was part of an on-going collaborative study of Air Force employees' acute exposure to jet fuel (JP-8), and the other concerns were addressed by this larger study. Data were collected May 15-19, 2000. Individual and task-specific metabolic rates were estimated, and wet bulb globe temperatures (WBGTs) were measured. Heat strain monitoring included core body temperature (CBT) and heart rate measurements on 23 participants and pre- and post-shift body weight measurements on 10 participants. The sampling results were compared to the NIOSH recommended action limits and recommended exposure limits (RALs/RELs) and the American Conference of Governmental Industrial Hygienists (ACGIH) Threshold Limit Values (TLVs). NIOSH and ACGIH assess heat stress using sliding scale limits based on environmental and metabolic heat loads. In addition, ACGIH provides physiological heat strain limits useful for those wearing impermeable personal protective equipment (PPE) and in situations of excess heat stress. For individuals with normal cardiac performance, ACGIH recommends that sustained (over several minutes) heart rate should remain below 180 beats per minute (bpm) minus age (in years), maximum CBT should remain below 100.4EF for unselected, unacclimatized personnel (101.3EF for medically selected, acclimatized personnel), recovery heart rate at one minute after a peak work effort should be below 110 bpm, and there should be no symptoms of sudden and severe fatigue, nausea, dizziness, or lightheadedness. The results of the evaluation indicated that all of the participants were acclimatized to their work environment and that none were exposed to heat stress conditions in excess of the screening criteria. However, 2 of 23 participants experienced heat strain signs, specifically HR in excess of the ACGIH criteria. In addition, 2 of 10 participants had greater than 1.5% body weight loss over their shifts indicating they were at greater risk of developing a heat-related illness. Six additional participants developed mild dehydration (body weight loss of 1.5% or less). Overall, body weight changes ranged from -2.7% to +1.2%, with a median percent body weight change of -1.0%. The evaluation results and the potential for heat strain to increase as temperatures rise during the spring and summer indicate that FSM personnel should be included in a heat stress management program. In addition, participants were not aware of having developed heat strain, indicating a need for a physiological self-monitoring program to be added to the heat stress program. During the NIOSH evaluation, health hazards from environmental conditions and overwork did not exist for fuel cell maintenance and other workers. However, hazardous environmental conditions can exist during spring and summer, and a few participants developed heat strain as indicated by the physiological monitoring results (heart rate levels in excess of occupational criteria). Also, of the 10 participants who were weighed pre-and post-shift, 6 developed mild dehydration and 2 more were dehydrated. Seymour Johnson AFB has a heat stress instruction; however, the instruction does not include a system for reporting heat-related illnesses or for monitoring personnel wearing water- or vapor- impermeable clothing ensembles. Recommendations are made to implement physiological (heat strain) monitoring and to take WBGT measurements in the immediate work areas at least hourly during the hottest parts of the shift and the hottest months of the year.
Hazards-Confirmed; Region-4; Heat-stress; Heat-exposure; Heat-exhaustion; Heat-stroke; Physiological-effects; Physiological-stress; Body-temperature; Author Keywords: National Security; Heat stress; heat strain; heat-related illness; core body temperature; metabolic rates; WBGT; wet-bulb globe temperatures; Air Force aircraft fuel cells; aircraft fuel cell maintenance; fuel systems maintenance; FSM
Field Studies; Hazard Evaluation and Technical Assistance
NTIS Accession No.
National Institute for Occupational Safety and Health
Page last reviewed: June 15, 2021
Content source: National Institute for Occupational Safety and Health Education and Information Division