Textile Science and Engineering (한국섬유공학회지)

The Korean Fiber Society (한국섬유공학회)
권호 표지

The Effect of Clothing Weights on Clothing Microclimate and Physiological Responses of the Human Body under an Air-conditioning Environment in Summer

여름철 냉방조건에서 착의량이 의복기후와 인체의 생리적 반응에 미치는 영향

  • Kim, Yang-Weon (Department of Fashion Design.Business, Daejeon University) ;
  • Lim, Ji-Young (Department of Fashion Design.Business, Daejeon University)
  • 김양원 (대전대학교 응용산업대학 패션디자인.비즈니스학과) ;
  • 임지영 (대전대학교 응용산업대학 패션디자인.비즈니스학과)
  • Received : 2011.01.03
  • Accepted : 2011.02.10
  • Published : 2011.02.28
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Abstract

To investigate the effects of clothing weights on subjective sensation and physiological responses of the human body under a temperature-controlled environment ($24.5^{\circ}C$), the clothing microclimate, including the temperature, humidity, and sweating rate, was measured from five young male volunteers in their 20's who wore clothing A (680 g) or clothing B (910 g). The temperature inside the clothing temperature on the breast was $28.7^{\circ}C$ in clothing A and $29.0^{\circ}C$ in clothing B. The temperature was lower than the standard clothing microclimate, and had a tendency to decrease over time. Regardless of clothing weight, the tympanic temperature was in the normal range. However, the mean skin temperature was significantly different between clothing A and B: $32.8^{\circ}C$ and $33.6^{\circ}C$, respectively. Skin temperatures of the forehead and abdomen were not affected by clothing weight, while skin temperatures of the breast, thigh, and leg were higher in clothing B than in A. There was no significant difference in the mean total sweating rates between clothing A and B. The average thermal, humid, and comfort sensations were 3.9, 4.2, and 1.1, respectively, in clothing A and 4.1, 4.3, and 1.2, respectively, in clothing B. None of these values were affected by clothing weight. As a result, we found that the mean skin temperature was significantly altered by clothing weight, but the tympanic temperature, sweating rate, and subjective sensation were not affected. In addition, the clothing climate was lower than the standard climate. Therefore, lighter and warmer materials are recommended for air-conditioning environments ($24.5^{\circ}C$), and the clothing covering area should be expanded.

Keywords

References

  1. S. Itoh, "Physiology of Cold Adapted Man", Hokkaido University Medical Library Series , Hokkaido, 1974, 7, pp.1-15.
  2. T. Araki, Y. Inoue, and K. Umeno, "Effects of Physical Training on Thremoregulatory Responses to Alternate Stress of Heat and Cold", J Phys Fitness, 1980, 22, 75-81.
  3. W. J. Lee, "An Analysis of Relationships between the Clothing - Weight and Health State on Kindergartners", J Korean Home Economics Association, 1988, 26, 23-31.
  4. J. M. Lee, S. W. Lee, and T. W. Cheon, "The Effect of Clothing Habits Wearing Cool or Warm on Mator Ability", J Korean Soc Cloth Text, 1996, 21, 286-291.
  5. M. K. Song and J. W. Choi, "Infuence of Clothing Weight on the Motor Ability - Focusing on the Kindergarteners", J Korean Soc Cloth Text, 1988, 12, 13-26.
  6. S. K. Hwang, J. H. Choi, and W K. Seong, "The Effect of Seasonal Clothing Weight on Resting Metabolic Rate", J Korean Soc Cloth Text, 1999, 23, 483-494.
  7. 高比良英雄, "日本人の新陳代謝論(その2), 日本人の體表面積の測定に 竝えわ表する式に就で", 營養硏究報告, 1924,1, p.61.
  8. Y. W. Kim and H. W. Ko, "Measurement of Seasonal Changes in Clothing Microclimate for the Assessment of Clothing Comfort during Office-Work", J Korean Fiber Soc, 2002, 39, 233-239.
  9. W. S. Jeong and J. W. Choi, "A Study on the Subcutaneous Fat Thickness and Clothing Weight", J Korean Soc Cloth Text, 1984, 8, 261-267.
  10. K. Toda, K. Ogata, and H. Mizumnashi, "A Survey on Seasonal Adaptation of Indoor Clothing Life and Hapan in Clothing Weight", J Sci Clo, 1982, 26, 3-11.
  11. 이순원, 조성교, 최정화, "피복환경학", 한국방송통신대학출판부, 서울, 1991, pp.80-84.
  12. "Thermal Environmental Conditions for Human Occupancy", ANSI/ASHRAE Standard 55, 2004.
  13. K. Yokoyama, "Relation between Clothing Microclimate and Comfort of Subjects", Proceeding of International Symposium on Clothing Comfort Studies in Mt. Fuji, 1988, pp.103-120.
  14. Y. W. Kim, "Assessment of Adaptation Level for Thermal Environment of Korean Male", Doctorial Thesis, Han Yang University, Seoul, 1992.
  15. F. Cascetta, "An Evaluation of the Performance of an Infrared Tympanic Thermometer", Measurement, 1995, 16, 239-246. https://doi.org/10.1016/0263-2241(95)00037-2
  16. J. H. Shin, "Physiological and Psychological Thermal Responses to Local Heating of the Human Body in a Cold Environment", J Korean Soc Cloth Text, 2001, 25, 1745-1753.
  17. C. E. A. Winslow and L. P. Herrington, "Temperature and Human Life", Prinston University, Prinston, NJ, 1949, pp.123-153.
  18. K. C. Parsons, "Human and Thermal Environment", Taylor & Fransis, NY, 1993, pp.35-47.