Specialized clothing is an integral part of a firefighter's protective system. However, existing fire fighter clothing, which attempts to protect against environmental hazards, also restricts dissipation of metabolic heat. This restriction can lead to severe heat stress and may result in subsequent hazards to the health and safety of the firefighter. A new prototype design has been developed that exhibits some improved heat-dissipation characteristics under controlled laboratory settings. Two versions of the prototype design were tested for ventilation and compared with the ventilation of standard turnout gear. Laboratory information was obtained using one male and one female test subject participating in a series of treadmill exercise tests. Biophysical data collected show that the proto type design provides improvements in clothing ventilation over the standard turnout gear presently in use. Analysis of results suggests that reduction in firefighter heat stress can be achieved, and con tinued development of the prototype design is recommended.
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