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題名:亞熱帶騎樓形式對於戶外行人舒適度影響之研究
書刊名:建築學報
作者:蘇瑛敏 引用關係張惠婷
作者(外文):Su, Ying-mingChang, Hui-ting
出版日期:2017
卷期:101
頁次:頁39-58
主題關鍵詞:騎樓行人舒適度高寬比生理等效溫度新標準溫度計算流體力學ArcadePedestrian thermal comfortHeight-to-width ratiosPETSETCFD
原始連結:連回原系統網址new window
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  • 被引用次數被引用次數:期刊(1) 博士論文(0) 專書(0) 專書論文(0)
  • 排除自我引用排除自我引用:1
  • 共同引用共同引用:12
  • 點閱點閱:6
騎樓為因應亞熱帶地區氣候而發展出的特有建築語彙,具地域建築特色,對於行人舒適度有重要影響。本研究為了解不同尺度騎樓對於亞熱帶地區高度發展都市環境中行人舒適度的影響,選擇台灣高層高密度都市發展完整的新北市台北大學特定計畫區中的「遠雄京都」為例,以三種不同形式之騎樓尺度進行分析比較。於2015年運用Testo480環境測量儀在氣候變化較劇烈的夏季及冬季進行風速、溫度、濕度的實地測量,並結合電腦數值模擬軟體ANSYS Fluent v16模擬三種騎樓形式:Case1(H/W=1.25)、Case2(H/W=1.54)、Case3(H/W=0.75)的溫濕度及風速,分析騎樓尺度改變對行人舒適度之影響。並將模擬結果代入RayMan v1.2進行生理等效溫度(PET)及新標準溫度(SET*)計算以分析行人熱舒適度。研究結果顯示,半戶外的騎樓建築型式可提供台灣行人舒適度較佳的活動空間。由實測結果顯示,夏季騎樓相較戶外可有效降溫12.2%。CFD模擬結果顯示,加深騎樓高度可有效改善騎樓夏季行人舒適度,PET值最高可提高2.4%。應用台灣特有的騎樓到現代高層建築規劃是塑造台灣特色風貌重要的策略,本研究結果可做為建築設計及都市規畫之參考依據。
Arcade is a unique architectural design of regional characteristic in response to the subtropical climate, with important implications for pedestrian comfort. Little is known about how and by how much different arcade designs affect pedestrian thermal comfort. This paper studies arcade's pedestrian thermal comfort effects in three different Height/Width Ratio(h/w) types(Case1(H/W=1.25) 、Case2(H/W=1.54) 、Case3(H/W=0.75)) of "Farglory Kyoto Community" in Xansha, New Taipei City. Both field measurements and simulation are employed to gather data such as temperature, humidity, velocity speed, PET, SET* etc. in 2015. The results confirm of role of arcade in improving pedestrian thermal comfort in subtropical buildings. Comparison among three cases reveals the impact of different design parameters (e.g height, width, depth) on the arcade pedestrian thermal comfort.
期刊論文
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5.Gagge, A. P.、Stolwijk, J. A. J.、Nishi, Y.(1971)。An Effective Temperature Scale Based on a Simple Model of Human Physiological Regulatory Response。ASHRAE Transactions,77(1),247-272。  new window
6.林君娟、謝俊民、程琬鈺(20101200)。建立都市住宅風環境舒適度指標與改善策略評估--以臺南市大林住宅都市更新地區為例。建築與規劃學報,11(3),221-241。new window  延伸查詢new window
7.邱英浩、吳孟芳(20101200)。不同街道尺度對環境風場之影響。都市與計劃,37(4),501-528。new window  延伸查詢new window
8.陳慶融、邱英浩(20150600)。植栽對戶外熱舒適之影響研究。建築學報,92,43-60。new window  延伸查詢new window
9.賴湘文、邱英浩、高立新、王价巨(20160300)。都市街廓特徵與人體熱舒適之關係研究。都市與計劃,43(1),89-114。new window  延伸查詢new window
10.Andreou, E.、Axarli, K.(2012)。Investigation of urban canyon microclimate in traditional and contemporary environment. Experimental investigation and parametric analysis。Renewable Energy,43,354-363。  new window
11.Blocken, B.、Janssen, W. D.、van Hooff, T.(2012)。CFD simulation for pedestrian wind comfort and wind safety in urban areas: General decision framework and case study for the Eindhoven University campus。Environmental Modelling & Software,30,15-34。  new window
12.Ghaffarianhoseini, A.、Berardi, U.、Ghaffarianhoseini, A.(2015)。Thermal performance characteristics of unshaded courtyards in hot and humid climates。Building and Environment,87,154-168。  new window
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16.Iqbal, Q. M. Z.、Chan, A. L. S.(2016)。Pedestrian level wind environment assessment around group of highrise cross-shaped buildings: Effect of building shape, separation and orientation。Building and Environment,101,45-63。  new window
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18.Lin, H. S.、Flühler, H.、Otten, W.、Vogel, H. J.(2010)。Soil Architecture and Preferential Flow across Scales。Journal of Hydrology,393,1-2。  new window
19.Liu, J.、Niu, J.、Xia, Q.(2016)。Combining measured thermal parameters and simulated wind velocity to predict outdoor thermal comfort。Building and Environment,105,185-197。  new window
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23.Ramponi, R.、Blocken, B.、de Coo, L. B.、Janssen, W. D.(2015)。CFD simulation of outdoor ventilation of generic urban configurations with different urban densities and equal and unequal street widths。Building and Environment,92,152-166。  new window
24.Shi, X.、Zhu, Y.、Duan, J.、Shao, R.、Wang, J.(2015)。Assessment of pedestrian wind environment in urban planning design。Landscape and Urban Planning,104,17-28。  new window
25.Stathopoulos, T.(2006)。Pedestrian level winds and outdoor human comfort。Journal of Wind Engineering and Industrial Aerodynamics,94,769-780。  new window
26.Taleghani, M.、Kleerekoper, L.、Tenpierik, M.、van den Dobbelsteen, A.(2015)。Outdoor thermal comfort within five different urban forms in the Netherlands。Building and Environment,83,65-78。  new window
27.Toparlar, Y.、Blocken, B.、Vos, P.、van Heijst, G. J. F.、Janssen, W. D.、van Hooff, T.、Montazeri, H.、Timmermans, H. J. P.(2015)。CFD simulation and validation of urban microclimate: A case study for Bergpolder Zuid, Rotterdam。Building and Environment,107,79-90。  new window
28.Wu, H.、Kriksic, F.(2012)。Designing for pedestrian comfort in response to local climate。Journal of Wind Engineering and Industrial Aerodynamics,104-106,397-407。  new window
29.Xie, X.、Liu, C. H.、Leung, D. Y. C.(2007)。CFD simulation of outdoor ventilation of generic urban configurations with different urban densities and equal and unequal street widths。Atmospheric Environment,41,9030-9049。  new window
30.Yang, L.、Li, Y.(2011)。Thermal conditions and ventilation in an ideal city model of Hong Kong。Energy and Buildings,43,1139-1148。  new window
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會議論文
1.Su, Ying-Ming、Lin, Yin-Cheng、Hsieh, Yi-Chin(2015)。Field measurements on the influence of outdoor wind environment around high-rise building arcade- A case study of Taipei University Specific District in New Taipei City, Taiwan。The 3rd ANNUAL INTERNATIONAL CONFERENCE PROCEEDINGS- Architecture and Civil Engineering。GLOBAL SCIENCE & TECHNOLOGY FORUM。  new window
圖書
1.Auliciems, A.、Szokolay, S. V.(2007)。Thermal Comfort。Brisbane, AUS:Department of Architecture, The University of Queensland。  new window
 
 
 
 
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