TY - JOUR
T1 - Impact of urban spaces and building height on airflow distribution
T2 - Wind tunnel testing of an urban setting prototype in abu-dhabi city
AU - Al-Sallal, Khaled A.
AU - AboulNaga, Mohsen M.
AU - Alteraifi, Abdullatif M.
N1 - Funding Information:
The authors would lie to direct their great appreciation to the UAE University Scientific Research Council for the encouragement and finan-aal support of this project. We would like also to thank our colleagues in the CollegeofEnpeeringwhoassisted us inachievingt his work; namely, Dr. Al-Sad Nasr, Arch. Fayez Fikry, Arch. Amr Hawas, and Eng. Amgad.
PY - 2001/9/1
Y1 - 2001/9/1
N2 - This paper investigates the effect of changing design parameters such as building height, urban space width, and building cluster arrangement on airflow in typical urban settings in Abu-Dhabi. It focuses on the impact of these parameters on airflow pathlines and velocity and analyzes the results with regard to thermal comfort in outdoor urban spaces. The study concludes with some design guideline and recommendations such as the following: low-rise buildings in the urban context should face the windward direction to reduce wind shadow effect; staggered arrangements of buildings in urban context provide more effective passive cooling design than parallel arrangement because of its potential to cool building structures at night by natural convection and to reduce high levels of humidity.
AB - This paper investigates the effect of changing design parameters such as building height, urban space width, and building cluster arrangement on airflow in typical urban settings in Abu-Dhabi. It focuses on the impact of these parameters on airflow pathlines and velocity and analyzes the results with regard to thermal comfort in outdoor urban spaces. The study concludes with some design guideline and recommendations such as the following: low-rise buildings in the urban context should face the windward direction to reduce wind shadow effect; staggered arrangements of buildings in urban context provide more effective passive cooling design than parallel arrangement because of its potential to cool building structures at night by natural convection and to reduce high levels of humidity.
KW - Abu-dhabi
KW - Air flow
KW - Hot humid climates
KW - Thermal comfort
KW - Urban spaces
KW - Wind tunnel tests
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U2 - 10.1080/00038628.2001.9697477
DO - 10.1080/00038628.2001.9697477
M3 - Article
AN - SCOPUS:0035443017
SN - 0003-8628
VL - 44
SP - 227
EP - 232
JO - Architectural Science Review
JF - Architectural Science Review
IS - 3
ER -