野外消防服装在不同高温环境中的热应变。

Nathan E Bartman, Hayden W Hess, Deanna Colburn, Jennifer Temple, David Hostler
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引用次数: 0

摘要

野外消防员可以在高温环境下长时间高强度工作。即使在相同的湿球温度下,环境条件(即环境温度和湿度 [相对湿度])也会改变所产生的热应变。这项调查评估了在湿球温度(28°C)相同的情况下,干热条件是否会比湿度适中的高湿度条件造成更大的应变。12 名参与者(年龄为 24±2 岁)分别在干燥(40°C,20% 相对湿度)、中等湿度(34°C,50% 相对湿度)和高湿度(29°C,90% 相对湿度)条件下,穿着防火夹克、裤子、手套和头盔,暴露颈部和面部,以 40-50% 的最大有氧能力行走 90 分钟和 40 分钟,然后休息 20 分钟。在中度湿度(38.9±0.2°C,p=0.01)和高度湿度(38.9±0.6°C,p=0.01)条件下,峰值核心温度较高。
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Heat Strain in Different Hot Environments Hiking in Wildland Firefighting Garments.

Wildland firefighters can work at high intensity in hot environments for extended periods of time. The resulting heat strain may be modified by the environmental conditions (i.e., ambient temperature and humidity [RH]) even at equal wet-bulb globe temperatures. This investigation assessed if a hot and dry condition would create greater strain than moderate and high humidity at equivalent wet-bulb globe temperature (28°C). Twelve participants (age 24±2 y) walked at 40-50% maximum aerobic capacity for 90 and 40 min separated by a 20 min rest in dry (40°C, 20% RH), moderate-humidity (34°C, 50% RH), and high-humidity (29°C, 90% RH) conditions wearing fire resistant jacket, pants, gloves, and helmet with the neck and face exposed. Peak core temperature was higher in moderate-humidity (38.9±0.2°C, p=0.01) and high-humidity (38.9±0.6°C, p<0.01) than dry condition (38.5±0.3°C). Average net heat gain was less in dry (33±22 W) compared to moderate-humidity (38±23 W, p<0.01) and high-humidity (39±28 W, p<0.01). Peak heart rate (174±14 bpm, p=0.94), Physiological Strain Index (7.7±1.4 score, p=0.99), perceived exertion (8±2 rating, p=0.97), and Perceptual Strain Index (7.3±1.6 score, p=0.99) were not different in high-humidity compared to the dry condition (167±19 bpm, 6.9±1.3 score, 6±2 rating, 7.3±1.7 score, respectively). Whole-body sweat rate (15±6 mL/min, p=0.58) and thermal sensation (7±1 rating, p=0.37) were not different. Hiking in a humid condition while wearing protective garments creates greater exertional heat strain compared to a dry condition of equivalent wet-bulb globe temperature. Wildland firefighters should consider extra strategies to mitigate hyperthermia when humidity is high.

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