A Study on Outdoor Thermal Comfort During Military Training for College Freshmen: A Survey in a Cold Region of China

A Study on Outdoor Thermal Comfort During Military Training for College Freshmen: A Survey in a Cold Region of China

College student military training is an organized, high-intensity, short-term militarized activity in China; this study aims to explore the differences in thermal perception between different intensities of military training. Questionnaires and microclimate measurements were conducted during summer...

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Bibliographic Details
Main Authors: Hongchi Zhang, Liangshan You, Bingru Chen, Yuqiu Wang, Fei Guo, Peisheng Zhu
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Buildings
Subjects:
outdoor thermal comfort
college student military training
thermal perception
Universal Thermal Climate Index
activity intensity
compulsory training
Online Access:https://www.mdpi.com/2075-5309/15/14/2454
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Summary:College student military training is an organized, high-intensity, short-term militarized activity in China; this study aims to explore the differences in thermal perception between different intensities of military training. Questionnaires and microclimate measurements were conducted during summer military training in cold regions, including the Protective and Rescue Training and Assessment (PRTA), Formation Training (FT), the Shooting and Tactical Training and Assessment (STTA), the Route March (RM), and Dagger Practice (DP). The results indicated that (1) there was no significant correlation between the intensity of the activity and votes on thermal perception. The strongest thermal sensations, the lowest comfort, and the lowest thermal acceptability were experienced during FT, with a lower activity intensity. (2) Air temperature (<i>T<sub>a</sub></i>), globe temperature (<i>T<sub>g</sub></i>), relative humidity (<i>RH</i>), mean radiant temperature (<i>T<sub>mrt</sub></i>), and solar radiation (<i>G</i>) had significant effects on the TSV. (3) FT involved the lowest neutral temperatures (NUTCI/NPET), while DP and RM training had the highest NUTCI and NPET values, respectively. The neutral temperature range during military training was narrower compared to that in other aerobic activities. This study reveals, for the first time, the non-traditional correlation between military training intensity and thermal perception, confirming the specificity of thermal sensations in mandatory training and providing a theoretical basis for optimizing military training arrangements and developing thermal protection strategies.
ISSN:2075-5309

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