国内外气候舒适度评价研究进展

doi:10.11867/j.issn.1001-8166.2013.10.1119

开展气候舒适度评价对于科学指导旅游出行、客观评价城市人居环境等都具有重要的理论价值和实践意义, 近年来随着旅游业的蓬勃发展和生活质量的普遍提高, 气候舒适度评价愈发成为当前研究的热点问题。在回顾近百年来该领域研究成果的基础上, 划分出气候舒适度评价的3个重要时期, 介绍了每个时期具广泛影响的人体舒适度模型, 论述了各种模型提出的时代背景、基本思想和适用条件。研究表明：气候舒适度评价由简单的经验模型向复杂的机理模型、由时空局限性模型向客观普适性模型发展, 具有精细化、客观化的发展趋势；目前, 国内气候舒适度评价研究中仍以经验模型的应用较为普遍, 但在模型的选择上要注意其季节及地域适用性；发展具有普适性的气候舒适度评价模型、探索气候舒适度精细化评估技术是今后研究中亟待解决的问题；开展特色宜人气候评价有望拓展舒适气候评价研究的深度和范围, 是今后重要的研究方向。

关键词: 人体舒适指数, 模型适用性, 特色宜人气候, 评价

The evaluation of bioclimatic comfort conditions has very important theoretical meaning and practical value, not only beacause it can help travelers choose their favorate holiday destinations, but also because it can provide scientific foundation for the assessment of urban living environment. It has become a hot topic recently, driven by the flourishing tourism and the improvement of people’s living standard. The research history on assessment of bioclimatic comfort conditions, which may date back almost a century, is divided into three peroids based on a detailed survey of literature related to this topic over the past century. The infulential assessment models in each period are introduced. The historical background, basic idea and applicable conditions for each model are described in detail. The research shows that: ①bioclimatic comfort assessment models have been evolved from simple empirical models limited to space and time into complicated, impersonal, and universal energybalance models, which shows the trend of sophistication and objectivity; ②Today, empirical models are still widely used for the assessment of comfortable climates in China, and thus it is important to select the appropriate ones to make sure they are good for use for a study area or in a particular season; ③there are some problems calling for immediate resolution, such as to develop universal assessment models as well as to explore finescale assessment techniques; ④the evaluation on featured comfortable climates, which might expand the study area of comfortable climates assessment, is an important research direction in the future.

Key words: Featured comfortable climates., Bioclimatic comfort index, Applicability of models, Assessment

中图分类号:

[1]Hill L, Griffith O W, Flack M. The measurement of the rate of heat loss at body temperature by convection, radiation and evaporation[J]. Philosophical Transaction of Royal Society, 1916, 207:183-220.
[2]Blazejczyk K, Epstein Y, Jendritzky G, et al. Comparison of UTCI to selected thermal indices[J]. International Journal of Biometeorology, 2012, 56:515-535.
[3]Houghton F C, Yaglou C P. Determining equal comfort lines[J]. Journal of the American Society of Heating and Ventilating Engineers, 1923, 29:165-176.
[4]Wang Yuanfei, Shen Yu. The temperature-humidity effect and human comfort in Shanghai summer[J]. Journal of East China Normal University(Natural Science), 1998, (3):60-66.[王远飞, 沈愈. 上海市夏季温湿效应与人体舒适度[J]. 华东师范大学学报:自然科学版, 1998, (3):60-66.]
[5]Yang Chengfang. Study on Climatic Comfort Index in Shandong[D]. Qingdao: Ocean University of China, 2004.[杨成芳. 山东省旅游气候舒适度研究[D]. 青岛: 中国海洋大学, 2004.]
[6]Ma Lijun, Sun Gennian, Li Fuli, et al. Evaluation of tourism climate comfortableness in Shaanxi Province[J]. Resources Science, 2007, 29(6):40-44.[马丽君, 孙根年, 李馥丽, 等. 陕西省旅游气候舒适度评价[J]. 资源科学, 2007, 29(6):40-44.]
[7]Wang Huafang. Research on Analysis and Evaluation of Climate Comfort Degree for Tourist in Shanxi Province[D]. Taiyuan: Shanxi University, 2007.[王华芳. 山西省旅游气候舒适度分析与评价研究[D]. 太原: 山西大学, 2007.]
[8]Ma Lijun, Sun Gennian, Wang Jiejie. Evaluation of tourism climate comfortableness of coastal cities in the Eastern China[J]. Progress in Geography, 2009, 28(5):713-722.[马丽君, 孙根年, 王洁洁. 中国东部沿海沿边城市旅游气候舒适度评价[J]. 地理科学进展, 2009, 28(5):713-722.]
[9]Ma Lijun, Sun Gennian, Ma Yanru, et al. Impact of climate comfort degree change on the number of tourists in Xi’an for the last 30 years[J]. Journal of Arid Land Resources and Environment, 2011, 25(9):191-196.[马丽君, 孙根年, 马彦如, 等. 30年来西安市气候舒适度变化对旅游客流量的影响[J]. 干旱区资源与环境, 2011, 25(9):191-196.]
[10]Ma Lijun, Sun Gennian, Ma Yaofeng, et al. An analysis on the influence of climate comfortable degree on temporal and spatial variation of inbound tourists in China’s hot cities[J]. Tourism Tribune, 2011, 26(1):45-50.[马丽君, 孙根年, 马耀峰, 等. 气候舒适度对热点城市入境游客时空变化的影响[J]. 旅游学刊, 2011, 26(1):45-50.]
[11]Ma Lijun, Sun Gennian, Yang Rui, et al. A correlative analysis of the spatial and temporal relationship between climate comfort degree and tourist network attention for typical cities[J]. Progress in Geography, 2011, 30(6):753-759.[马丽君, 孙根年, 杨睿, 等. 城市气候舒适度与游客网络关注度时空相关分析[J]. 地理科学进展, 2011, 30(6):753-759.]
[12]Vernon H M, Warner C G. The influence of the humidity of the air on capacity for work at high temperatures[J]. Journal of hygiene, 1932, 32:431-462.
[13]Li P W, Chan S T. Application of a weather stress index for alerting the public to stressful weather in Hong Kong[J]. Meteorological Applications, 2000, 7:369-375.
[14]McArdle B, Dunham W, Holling H E, et al. The prediction of the physiological effects of warm and hot Environments[R]∥Renewable Northwest Project Report 47/391. London: Medical Resource Council, 1947.
[15]Yaglou C P, Minard D. Control of heat casualties at military training centers[J]. American Medical Association Archives of Industrial Health, 1957, 16:302-316.
[16]Thorn E C. The discomfort index[J]. Weathenvise, 1959, (12):57-60.
[17]Masterson J M, Richardson F A. Humidex: A Method of Quantifying Human Discomfort Due to Excessive Heat and Humidity[M]. Downsview, Ontario: Environment Canada, 1979.
[18]Siple P, Passel C F. Measurements of dry atmospheric cooling in subfreezing temperatures[J]. Proceedings of the American Philosophical Society, 1945, 89:177-199.
[19]OFCM. Report on Wind Chill Temperature and Extreme Heat Indices: Evaluation and Improvement Projects[R]. Washington DC: U.S. Department of Commerce/National Oceanic and Atmospheric Administration, Office of the Federal Coordinator for Meteorological Services and Supporting Research, 2003.
[20]Steadman R G. The assessment of sultriness. Part I: A temperature-humidity index based on human physiology and clothing science[J]. Journal of Applied Meteorology, 1979, 18:861-873.
[21]Rothfusz L P. The heat index equation[S]∥NWS Southern Region Technical Attachment (SR90-23). Fort Worth, Texas: Scientific Services Division NWS Southern Region Headquarters, 1990.
[22]Jendritzky G, de Dear R, Havenith G. UTCI-why another thermal index?[J]. International Journal of Biometeorology, 2012, 56:421-428.
[23]Fanger P O. Thermal Comfort. Analysis and Application in Environment Engineering[M]. Copenhagen: Danish Technical Press, 1970.
[24]Gagge A P, Stolwijk J A J, Nishi Y. An effective temperature scale based on a simple model of human physiological regulatory response[J]. ASHRAE Transactions, 1971, 77: 247-272.
[25]Höppe P. Die Energiebilanz des Menschen[D]. München: University of München, 1984.
[26]Han Xuefeng, Weng Wenguo, Fan Weicheng. Human thermal models and their application in fire safety research[J].Fire Science and Technology, 2011, 30(3):238-242.[韩雪峰, 翁文国, 范维澄. 人体热反应模型及其在消防安全中的应用[J]. 消防科学与技术, 2011, 30(3):238-242.]
[27]Lu Dinghuang, Cui Sen, Li Chonghe. The influence of Beijing urban greening and summer microelimatic conditions on human fitness[C]∥Forestry and Metrology Papers. Beijing: China Meteorological Press, 1984:144-152.[陆鼎煌, 崔森, 李重和. 北京城市绿化夏季小气候条件对人体的适宜度[C]∥林业气象论文集. 北京:气象出版社, 1984:144-152.
[28]Xia Lianbo. Human Biology Aerography[M]. Beijing: China Meteorological Press, 1986.[夏廉博. 人类生物气象学[M]. 北京:气象出版社, 1986.]
[29]Qian Miaofen, Ye Mei. A method in evaluating the pleasantness of weather for tourist[J]. Journal of Chengdu Institute of Meteorology, 1996, 11(3):128-134.[钱妙芬, 叶梅. 旅游气候宜人度评价方法研究[J]. 成都气象学院学报, 1996, 11(3):128-134.]
[30]Li Wanzhen, Tan Chuanfeng. Climatic suitable index to the body[J]. Journal of Central China Normal University(Natural Sciences), 1994, (6):255-259.[李万珍, 谭传凤. 人体的气候适宜度研究[J]. 华中师范大学学报：自然科学版, 1994, (6):255-259.]
[31]Lü Weilin. Apparent temperature and its calculation method[J]. Journal of Beijing Meteorology, 1997, (4):23-25.[吕伟林. 体感温度及其计算方法[J]. 北京气象, 1997, (4):23-25.]
[32]Gao Shaofeng, Chen Wanlong, Zhu Chaoqun. Applied Climatology[M]. Beijing: China Meteorological Press, 2001.[高绍凤, 陈万隆, 朱超群. 应用气候学[M]. 北京: 气象出版社, 2001.]
[33]Zhang Shuyu. Fundmentals of Medical Meteorology Forcast[M]. Beijing: China Meteorological Press, 1999:38-42.[张书余. 医疗气象预报基础[M]. 北京: 气象出版社, 1999:38-42.]
[34]Feng Dingyuan, Qiu Xinfa. Calculation and analysis of the apparent temperature in the four seasons over China[J]. Journal of Nanjing Institute of Meteorology, 1990, 13(1):71-79.[冯定原, 邱新法. 我国各地四季感热温度的计算和分析[J]. 南京气象学院学报, 1990, 13(1):71-79.]
[35]Feng Dingyuan, Qiu Xinfa, Huang Jumei. The distribution of the apparent temperatures in summer in China[J]. Meteorological Monthly, 1990, 15(6):21-26.[冯定原, 邱新法, 黄桔梅. 我国夏季感热温度的分布[J]. 气象, 1990, 15(6):21-26.]
[36]Liu Mei, Yu Bo, Yao Kemin. The apparent temperature model based on thermal equilibrium and effect of climatic elements[J].Journal of Nanjing Institute of Meteorology, 2001, 24(4):527-536.[刘梅, 于波, 姚克敏.以热量平衡为基础的体感温度模型及气候要素的效应分析[J]. 南京气象学院学报, 2001, 24(4):527-536.]
[37]Tang Yu. Research on Spatial Distribution Pattern of Human-comfort in China with the Application of WebGIS[D]. Shanghai:East China Normal University, 2008.[唐瑜. 中国气候舒适度的空间分布研究与WebGIS应用[D]. 上海:华东师范大学, 2008.]
[38]Wang Wen, Lu Xu. The comfortable degree evaluation of human settlements based on GIS—A case of He’nan Province[J]. Remote Sensing Information, 2009, (2):104-109.[王汶, 鲁旭. 基于GIS的人居环境气候舒适度评价——以河南省为例[J]. 遥感信息, 2009, (2):104-109.]
[39]Wang Sheng, Tian Hong, Xie Wusan, et al. A study on variations and comprehensive zoning of climate comfort degree in Anhui Province in the past 50 years[J].Progress in Geography, 2012, 31(1):40-45.[王胜, 田红, 谢五三, 等. 近50 年安徽省气候舒适度变化特征及区划研究[J]. 地理科学进展, 2012, 31(1):40-45.]
[40]Zha Shuping, Zhang Min, Wang Li’na. Spatial distribution characteristics of climate comfortable index of summer tourism in Zhejiang Province[J].Journal of Nantong University(Natural Science Edition), 2012, (1):53-57.[查书平, 张敏, 王丽娜. 浙江省夏季旅游气候舒适度的空间分布特征[J]. 南通大学学报:自然科学版, 2012, (1):53-57.]
[41]Zhang Di, Shi Lan, Miao Qilong, et al. Fine estimation and evaluation of tourism comfort in Jiangsu Province based on GIS[J]. Journal of Jiangsu Normal University(Natural Science Edition), 2012, 30(3):62-67.[张狄, 史岚, 缪启龙, 等. 基于GIS的江苏省旅游舒适度精细化估算与评价[J]. 江苏师范大学学报:自然科学版, 2012, 30(3):62-67.]
[42]Fan Yezheng, Guo Laixi. The climate suitability of tourism at the coastline destinations of China[J]. Journal of Natural Resources, 1998, 13(4): 304-311.[范业正, 郭来喜. 中国海滨旅游地气候适宜性评价[J]. 自然资源学报, 1998, 13(4): 304-311.]
[43]Lu Lin, Xuan Guofu, Zhang Jinhe, et al. An approach to seasonality of tourist flows between coastland resorts and mountain resorts:Examples of Sanya, Beihai, Mt. Putuo, Mt. Huangshan and Mt. Jiuhua[J]. Acta Geographica Sinica, 2002, 57(6):731-740.[陆林, 宣国富, 章锦河, 等. 海滨型与山岳型旅游地客流季节性比较——以三亚、北海、普陀山、黄山、九华山为例[J]. 地理学报, 2002, 57(6):731-740.]
[44]Sun Manying, Zhou Binggen, Cheng Xiaoli. Climate suitability of Jiuhua mountain and its impact on the number of tourists[J]. Journal of Chizhou College, 2008, 22(5):104-107.[孙满英, 周秉根, 程晓丽. 九华山旅游气候适宜性及其对客流量影响[J]. 池州学院学报, 2008, 22(5):104-107.]

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Advances on Assessment of Bioclimatic Comfort Conditions at Home and Abroad