城市休闲街区的室外微气候环境分析
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摘要
随着城市经济的快速发展,人们生活水平的快速提高,人们对生活质量追求的提高,居住在城市中的人们在闲暇之余,希望能有舒适的休闲场所进行休闲,休闲街区自然而然地成为大家关注的热点,对休闲街区研究应运而生。本文以宽窄巷子为例,针对城市休闲街区室外微气候环境开展了以下研究。
1、为了解休闲街区室外微气候的基本情况,本文对宽窄巷子进行实地调研,在宽窄巷子中三个不同地方使用WBGT仪器进行测量,总结出了宽窄巷子一定时间范围内微气候的变化规律以及各个测点微气候的基本状况。同时对比了微观实测数据与宏观气象数据的差异,提出了在无法进行实地测量的情况下,进行计算机模拟时可以直接采用气象台的气温与相对湿度进行初始条件进行分析,而风速由于关联性不好再加上风本身的多变性,必须进一步进行处理才能进行模拟分析。
2、利用ECOTECT对宽窄巷子室外热环境进行详细的日照遮挡和太阳辐射模拟分析,并且对日照间距、建筑朝向和建筑布局进行了进一步分析,通过提供详细的分析数据和分析结果图,弥补了实测时没有同时进行三个测点测量的不足之处,并且对宽窄巷子整体热环境进行了横向对比,总结出了宽窄巷子热环境的优劣性。
3、针对城市风环境的独特性与复杂多变性,本文利用FLUENT软件,总结了城市中大气边界层气体流动的基本模拟体系。另外为了更加准确地模拟植物冠层对空气流动的阻碍作用,本人在多孔介质理论基础上,创新性的提出利用叶片面积来计算植物冠层在风环境模拟中的相关系数,并且与前人的风洞实验进行了对比效验,验证了模拟体系较为可靠。最后利用本文提出的建筑与植物风环境模拟体系,以宽窄巷子为例进行了风环境模拟分析,提供了室外风环境模拟分析的基本范例,以供参考研究。
本论文为准确预测和客观评价城市休闲街区室外微气候环境奠定了基础,论文中提出了热环境模拟分析体系和风环境模拟分析体系,使得利用计算机模拟来指导和优化城市休闲街区室外微气候成为了可能。
With the city's rapid economic development, people's living standards quickly improve, people's pursuit of quality of life improved, the people who are living in the city, hoping to have their own place to relax, the casual neighborhood has naturally become the focus of attention. So the following research carried out " The width of the alley" as a example to study the urban casual neighborhood outdoor microclimate environment.
1、In order to understand the basic situation of casual neighborhood outdoor microclimate, In the width of the alley I conduct field research in three different places with WBGT measurement instruments to measure. and summed up the basic situation of the microclimate variation in the width of the alley within a certain time frame.
2、Take advantage of ECOTECT to study the width of the alley outdoor thermal environment details sunshine shelter analysis and solar radiation simulation analysis. And take a further analysis to sunshine spacing, building orientation and layout of the building. By providing a detailed analysis of the data and analysis chart, make up the inadequacies observed without simultaneous measurement of three points. finally, horizontal contrast to the thermal environment and the overall width of the alley, summed up the pros and cons of the thermal environment of the width of the alley.
3、BY using FLUENT software, the unique, complex and changeable Urban wind environment summed up the basic simulation of atmospheric boundary layer in the gas flow in the city system. In addition, in order to more accurately simulate the plant canopy air flow impediment, I based on the theory of porous media, the innovative utilize leaf area to calculate the correlation coefficient of the plant canopy in the wind environment simulation, and predecessors the wind tunnel experiments compared the efficacy and verify the analog system more reliable. Finally, this paper proposed wind environment simulation system for buildings and plants, wind environment simulation analysis to the width of the alley as a example, provides a basic example of the outdoor wind environment simulation analysis for the study of reference.
The papers laid the foundation for accurate forecasting and objective evaluation of urban leisure neighborhoods outdoor microclimate environment, the paper proposed thermal environment simulation analysis system wind environment simulation analysis system makes utilize computer simulations to guide and optimize urban casual neighborhood outdoor microclimate became possible.
1、为了解休闲街区室外微气候的基本情况,本文对宽窄巷子进行实地调研,在宽窄巷子中三个不同地方使用WBGT仪器进行测量,总结出了宽窄巷子一定时间范围内微气候的变化规律以及各个测点微气候的基本状况。同时对比了微观实测数据与宏观气象数据的差异,提出了在无法进行实地测量的情况下,进行计算机模拟时可以直接采用气象台的气温与相对湿度进行初始条件进行分析,而风速由于关联性不好再加上风本身的多变性,必须进一步进行处理才能进行模拟分析。
2、利用ECOTECT对宽窄巷子室外热环境进行详细的日照遮挡和太阳辐射模拟分析,并且对日照间距、建筑朝向和建筑布局进行了进一步分析,通过提供详细的分析数据和分析结果图,弥补了实测时没有同时进行三个测点测量的不足之处,并且对宽窄巷子整体热环境进行了横向对比,总结出了宽窄巷子热环境的优劣性。
3、针对城市风环境的独特性与复杂多变性,本文利用FLUENT软件,总结了城市中大气边界层气体流动的基本模拟体系。另外为了更加准确地模拟植物冠层对空气流动的阻碍作用,本人在多孔介质理论基础上,创新性的提出利用叶片面积来计算植物冠层在风环境模拟中的相关系数,并且与前人的风洞实验进行了对比效验,验证了模拟体系较为可靠。最后利用本文提出的建筑与植物风环境模拟体系,以宽窄巷子为例进行了风环境模拟分析,提供了室外风环境模拟分析的基本范例,以供参考研究。
本论文为准确预测和客观评价城市休闲街区室外微气候环境奠定了基础,论文中提出了热环境模拟分析体系和风环境模拟分析体系,使得利用计算机模拟来指导和优化城市休闲街区室外微气候成为了可能。
With the city's rapid economic development, people's living standards quickly improve, people's pursuit of quality of life improved, the people who are living in the city, hoping to have their own place to relax, the casual neighborhood has naturally become the focus of attention. So the following research carried out " The width of the alley" as a example to study the urban casual neighborhood outdoor microclimate environment.
1、In order to understand the basic situation of casual neighborhood outdoor microclimate, In the width of the alley I conduct field research in three different places with WBGT measurement instruments to measure. and summed up the basic situation of the microclimate variation in the width of the alley within a certain time frame.
2、Take advantage of ECOTECT to study the width of the alley outdoor thermal environment details sunshine shelter analysis and solar radiation simulation analysis. And take a further analysis to sunshine spacing, building orientation and layout of the building. By providing a detailed analysis of the data and analysis chart, make up the inadequacies observed without simultaneous measurement of three points. finally, horizontal contrast to the thermal environment and the overall width of the alley, summed up the pros and cons of the thermal environment of the width of the alley.
3、BY using FLUENT software, the unique, complex and changeable Urban wind environment summed up the basic simulation of atmospheric boundary layer in the gas flow in the city system. In addition, in order to more accurately simulate the plant canopy air flow impediment, I based on the theory of porous media, the innovative utilize leaf area to calculate the correlation coefficient of the plant canopy in the wind environment simulation, and predecessors the wind tunnel experiments compared the efficacy and verify the analog system more reliable. Finally, this paper proposed wind environment simulation system for buildings and plants, wind environment simulation analysis to the width of the alley as a example, provides a basic example of the outdoor wind environment simulation analysis for the study of reference.
The papers laid the foundation for accurate forecasting and objective evaluation of urban leisure neighborhoods outdoor microclimate environment, the paper proposed thermal environment simulation analysis system wind environment simulation analysis system makes utilize computer simulations to guide and optimize urban casual neighborhood outdoor microclimate became possible.
引文
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[2]王鹏.建筑适应气候一一兼论乡土建筑及其气候策略.清华大学博士论文,2001
[3]Norman J. Rosenberg, Blaine L.Blad, Shashi B. Verma. Microclimate, The Biological Environment [M]. Second Edition. USA:Wiley-Interscience Publication,1983:1-5
[4]ASHRAE Handbook-fundamentals (Chapter 8). Physiological principles and thermal comfort [M]. ASHRAE:Atlanta,1993:85.
[5]林波荣.绿化对室外热环境影响的研究.清华大学博士论文,2004
[6]陈卓伦.绿化体系对湿热地区建筑组团室外热环境影响研究.华南理工大学博士论文,2010
[7]张志勤.喷泉周围热环境实验和理论研究.清华大学博士论文,2004
[8]袁永东.不同建筑布局对室外热环境的影响及节能效果分析.东华大学硕士论文,2011
[9]赵炎.住宅小区室外热环境的实测与模拟.重庆大学硕士论文,2008
[10]P.0. Fanger,Thermal Comfort, Robert E. Krieger Publishing Company, Malabar, FL,1982
[11]朱颖心.建筑环境学.中国建筑工业出版社.2005
[12]2001 ASHRAE Handbook, Fundamentals (SL), American Society of Heating, Refrigerating and Air-conditioning, Engineers, Inc.,1791 Tullie Circle, N. E. Atlanta. GA 30329
[13]董靓,陈启高.户外热环境质量评价.东京.1991
[14]高亚峰.GIS在山地城镇室外热环境评价中的应用.重庆大学硕士论文,2005
[15]钱炜.城市户外热环境舒适性研究.重庆大学硕士论文,2003
[16]王玲.城市建筑节能发展规划编制模式研究.2001
[17]吴晓冬.寒冷地区住区组团布局的微气候适应性研究.长安大学硕士论文,2010
[18]陈丽.武汉市下垫面建筑热环境性能数值模拟.华中科技大学硕士论文,2007
[19]罗哲贤.植被带布局对局地流场的作用[J].地理研究,1992,11(1):15-22.
[20]韩占忠,王敬.流体工程仿真计算实例与应用[M].北京:北京理工大学出版社,2004.
[21]刘应中,缪国平.高等流体力学(第二版)[M].上海:交通大学出版社,2002:3-14.
[22]王廷夷,邹声华.房间内空调器合理送风角度的研究[J].建筑热能通风空调,2009,28(1):69-71.
[23]刘伟.多孔介质传热质理论与应用[M].北京:科学出版社,2006.
[24]蒋慧君,张鹤飞.绿色植被内空气温湿度计算的数学模型[J].太阳能学报,2003,24(1):103-105.
[25]高德力安.作物微气象学[M].北京:北京科学出版社,1985.
[26]孙凤明,陈俊华,王芳.步行环境影响因子分析及设计策略.工业建筑2008(1):20-21
[27]柏春.小气候对人的环境行为影响研究——以上海淮海公园前广场为例.新建筑.2006,(1):80-81
[28]李忠雪.寒地城市步行商业街研究.哈尔滨工业大学硕士学位论文.2007
[29]杜立柱,宁德峰,金石川,陶英军.寒地城市商业空间设计浅析.城市规划1999,(1):52
[30]冷红,郭恩章,袁青.气候城市设计对策研究.城市规划.2003,27(9):50
[31]浅见泰司.居住区环境评价方法与理论.清华大学出版社,2006:156
[32]刘福智,谭良斌.城市景观生态安全及评价模式.西安建筑科技大学学报.2006,(2):38-39
[33]马剑.群体建筑风环境的数值研究.浙江大学建筑工程学院硕士论文.2006:45,47
[34]万鑫,苏亚欣.现代建筑中自然通风技术的应用[J].建筑节能,2007,09:12-15
[35]黄晨,李美玲.大空间建筑室内垂直温度分布的研究[J].暖通空调,1999,29(5):28-33
[36]段双平,张国强,彭建国,等.自然通风技术研究进展[J].暖通空调,2004,34(3):22-28
[37]李晓峰,谭刚.自然通风设计方法研究(一)理论与方法[C].见:全国暖通空调制冷200年学术年会论文集.2000
[38]韩焕金.城市绿化树种生态功能研究[D].东北林业大学硕士论文,2002,5
[39]唐鸣放,王东,等.山地城市绿化与热环境[J].重庆建筑大学学报,2006,28(2):1-3.
[40]唐鸣放,张恒坤,等.户外公共空间遮阳分析[J].重庆建筑大学学报,2008(3):5-8.
[41]居发礼,付祥钊,等.基于日轨迹的建筑外遮阳设计方法研究[J].云南建筑,2009.
[42]云鹏ECOTECT建筑环境设计教程[M].北京:中国建筑工业出版社,2007.
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