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夏季空气流动对人体热舒适性的影响 被引量:26

Physiological Experiment for Human Thermal Comfort of Air Flow in Summer
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摘要 为确定夏季高温环境下空气流动对人体热舒适性的影响程度,于2008年夏季,进行了吹风环境下人体生理、心理热舒适实验。统计分析表明:夏季高温环境下,吹风使人体生理参数及热感觉出现明显下降的现象,且下降的程度与其所处环境的空气温度有关,相同风速下,空气温度越低,下降程度越大。但当空气温度达到约34℃时,吹风对人体生理参数基本无影响,但对热感觉仍有所改善。研究结果表明:夏季高温环境下,加强空气流动可在一定程度改善人体热舒适性,但是这种改善是有限制的,空气温度过高、风速太大或长时间吹风都可能会导致人体不舒适。 A physiological and psychological experiment was conducted in summer,2008 to ascertain the effect of air flow on human thermal comfort in hot summer.The statistics analysis shows that air flow makes physiological index and thermal sensation an obvious drop tendency,which is correlated to the air temperature of indoor environment.The lower the air temperature is,the greater the physiological index and the thermal comfort drop.But when the temperature is up to about 34℃,the air flow almost does not make any change to physiological index while the human sensation is still improved.These results indicate that air flow can improve human thermal comfort to some extent,but the improvement has limits.Higher air temperature,strong wind and long time exposure to wind can lead to uncomfortableness.
作者 谈美兰 李百战 李文杰 刘红 郑洁 许孟楠
机构地区 重庆大学三峡库区生态环境教育部重点实验室 重庆大学城市建设与环境工程学院
出处 《土木建筑与环境工程》 CSCD 北大核心 2011年第2期70-73,共4页 Journal of Civil,Architectural & Environment Engineering
基金 国家自然科学基金重点项目(50838009) 国家"十一五"科技支撑重大项目(2006BAJ02A09) 重庆市重大科技专项(CSTC 2008AB7110)
关键词 空气流动 热舒适 热感觉 人体生理参数 问卷调查 air flow thermal comfort thermal sensation physiological index questionnaire investigation
分类号 TU834.3 [建筑科学—供热、供燃气、通风及空调工程]
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参考文献18

  • 1GAGGE A P, NISHI Y, GONZALEZ R1. Standard effective temperature - a single index of temperature sensation and thermal discomfort [C]//Proceedings of the CIB Commission W45 (Human Requirements) Symposium at the Building Research Station, 1972: 229-250.
  • 2TOFTUM J. Air movement - good or bad? [J]. Indoor Air,2004,14(S7) :40-45.
  • 3ROHLES F H, WOODS J E, NEVINS R G. The effect of air movement and temperature on the thermal sensations of sedentary man [J]. ASHRAE Trans 1974,80 : 101-119.
  • 4TANABE S, KIMURA K. Thermal comfort requirements under hot and humid conditions [C]// Proceedings of the First ASHRAE Far East Conference on Air Conditioning in Hot Climates, Singapore, ASHRAE, 1989: 3-21.
  • 5ARENS E, XU T, MIURA K, et al. A study of occupant cooling by personally controlled air movement [J]. Energy Building, 1998, 27:45- 59.
  • 6田元媛,许为全.热湿环境下人体热反应的实验研究[J].暖通空调,2003,33(4):27-30. 被引量:79
  • 7CANDIDO C, DEAR R J DE, LAMBERTS R, et al. Air movement acceptability limits and thermal comfort in Brazil's hot humid climate zone [J]. Building and Environment, 2010,45 : 222-229.
  • 8TOMONORI SAKOI, KAZUYO TSUZUKI, SHINSUKE KATO, et al. Thermal comfort, skin temperature distribution, and sensible heat loss distribution in the sitting posture in various asymmetric radiant fields [J]. Building and Environment, 2007, 42 :3984 -3999.
  • 9YAO YE, LIAN ZHIWEI, LIU WEIWEI, et al. Experimental study on physiological responses and thermal comfort under various ambient temperatures[J]. Physiology & Behavior, 2008, 93: 310-321.
  • 10LI BAIZHAN, LI WENJIE,LIU HONG, et al. Physiological expression of human thermal comfort to indoor operative temperature in the NON-HVAC environment[J]. Indoor and Built Environment, 2010, 19(2) : 221-229.

二级参考文献17

  • 1宋素敏.[D].北京:清华大学,1999.
  • 2WeisbergS著 王静龙 等译.应用线性回归(第2版)[M].北京:中国统计出版社,1998..
  • 31,F Rohles. The effects of air movement and temperature on the thermal sensation of sedentary man. ASHARE Trans, 1974, V80(1):101-119.
  • 42,Knoz S, S Al-Wahab, H Gough. The effect of air velocity on thermal comfort. Proceedings of the human factors society, 1983.
  • 53,D A McIntyre. Preferred air speeds for comfort in warm conditions. ASHARE Trans, 1978,V84(2):264-277.
  • 64,B W Jones, K Hsleh, M Hashinaga. The effect of air velocity on thermal comfort at moderate activity levels. ASHRAE Trans, 1986, V92(2B):761~768.
  • 75,Marc Fountain, Fred Bauman, Edward Arens. Locally controlled air movement preferred in warm isothermal environments. ASHRAE Trans, 1994, V100(2):937-952.
  • 86,P Fanger. The effect on man's comfort of a uniform air flow from different directions. ASHRAE Trans, 1988,V94:21-39.
  • 97,Shin-ichi Tanabe, Ken-ichi Kimura. Effects of air temperature, humidity and air movement on thermal comfort under hot and humid conditions. ASHARE Trans, 1994, V100(2):953-967.
  • 108,Edward Arens, Tengfang Xu, et al. A study of occupant cooling by personally controlled air movement. Energy and Buildings,1998,(27):45-59.

共引文献129

同被引文献236

引证文献26

二级引证文献84

土木建筑与环境工程
2011年 第2期

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