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Survey of Airflow around Multiple Buildings

Received: 13 January 2014     Published: 28 February 2014
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Abstract

This survey paper offers a review of past and present studies related to air flow around multiple building configurations to achieve energy savings and thermal comfort in hot climate regions in the presence of increased urbanization. The purpose of this review paper is to provide guidelines based on previous studies for the successful design of group housing in a hot and arid climate such as Egypt to improve air flow around multiple rows of buildings. This study presents several types of courtyard designs inside houses that provide direct air flow at windward sides inside compactly planned buildings. Next, air flow is described around one individual building and two buildings that have a passage between them. Furthermore, air flow around buildings is discussed to include several rows of buildings that range from rectangular linear to square shapes with flat and jack roofs, where the main goal is to achieve appropriate wind velocity at inlet surfaces, especially at the second and the third rows of buildings, and to avoid turbulence zones caused by wind around building. Finally, the effect of topography and urban mass on global wind velocity at the city scale is discussed.

Published in American Journal of Energy Engineering (Volume 2, Issue 1)
DOI 10.11648/j.ajee.20140201.14
Page(s) 27-36
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2014. Published by Science Publishing Group

Keywords

Hot Climate, Courtyards, and Air Flow due to Wind Pressure around Buildings, Thermal Comfort with Natural Ventilation

References
[1] Military Handbook, 2004, Cooling Building by Natural Ventilation, Department of Defense, Approved for Public Release, USACE Publication Depot, pp 7.
[2] Brown, G.P., 2000, Sun, Wind, and Light; Architectural Design Strategies, 2nd Edition, John Wiley & Son Publishers.
[3] Yamada, T. , 2005 , Numerical Simulation of Air Flows in and around A City in A Coastal Region , American Meteorological society , Annual Conf. , San Diego , California .
[4] Bauman, F., Ernest, D. , and Arens , E. A. , 1988 , The Effects of Surrounding Buildings on Wind Pressure Distributions and Natural Ventilation in Long Building rows , Center for The Built Environment, University of California , Berkeley Publishers , Scholarship Repository .
[5] Tantasavasdi, C., Srebric, J., and Chen, Q., 2001, Natural Ventilation Design for Houses in Thailand, Energy and buildings, Vol. 33, Issue 8, pp 815 – 824.
[6] Heidari, S., 2005, Effect of Air Movement in Buildings, Passive and low Energy Cooling for the Built Environment International Conf.
[7] Brager , G.S. , and de Dear, R., 2001 , Climate , Comfort , & Natural Ventilation : A New Adaptive Comfort for ASHRAE Standard 55 , , Center for The Built Environment , University of California , Berkeley Publishers , Scholarship repository .
[8] Aynsley, R., 2002, Energy with Indoor Air movement, International Journal of Ventilation, Vol. 1, pp 33 – 38.
[9] Narayan, T., A Passive Courtyard Home in Jaipur, India: Design Analysis Thermal Comfort in A Hot Desert Climate, Arizona State University Publishers.
[10] Tablada, A., Blocken, B., Carmeliet, J., De Troyer, F., and Verschure, H., Geometry of Building’s Courtyards to Favor Natural Ventilation: Comparison between Wind Tunnel Experiment and Numerical Simulation, leaven, Belgium.
[11] Chen, Q., 2006, Sustainable Urban Housing in China, Springer Publishers, Netherlands, pp 116-123.
[12] Baskaran, A., and Kashef, A., 1996, Investigation of Air Flow around Buildings Using Computational Fluid Dynamics Techniques, Engineering Structures Vol. 18, No 11.
[13] Blocken , B. , and Carmeliet , 2004 , Pedestrian Wind Environment around Buildings : Literature Review and Practical Examples , Journal of Thermal Envelope and Building Science 28 ( 2 ) : 107- 159 .
[14] Popinet, S. , Smith, M., and Stevens, G. , 2003 , Experimental and Numerical Study of The Turbulence Characteristics of Air Flow around A research Vessel , Journal of Atmospheric and Oceanic Technology .
[15] Xia, J., Hussaini, M. Y., and Leung, D. , 2003 , Numerical Simulations of Wind Field in Street Canyons with and without Moving Vehicles , 16th ASCE Engineering Mechanics Conference.
[16] Lee, R., Chan, S. T., Leone, J. M., Stevens, D. E., 1999, Air Flow and Dispersion around Multiple Buildings, 7th International Conf. on Air Pollution, San Francisco, CA.
[17] Oh , S.N. , A Bio – climatic Assessment on Urban Area at Seoul Based on Observations and Numerical Simulations , Applied Meteorology Research Laboratory Publishers , Korea .
[18] Chung, Y.S. , and Kim, H. S., 2008, Mountain – Generated Vortex Streets Over The Korea South Sea, International Journal of Remote Sensing, Vol. 29, No. 3, pp 867 – 877.
[19] Brown, M., Marty, L. , Calhoun, R., Smith, S., Reisner, J., Lee, B., Chin, S. , and De Croix, D. , 2001 , Multi-Scale Modeling of Air Flow in Salt Lake City and The Surrounding Region , ASCE Structures Congress Conf. , Washington , Dc .
[20] Leach, M .J. Chan, S. T., and Lundquist, J. K., 2005, High-Resolution C F D Simulation of Air Flow and Tracer Dispersion in New York City, Sixth Symposium on The Urban Environment, Atlanta, GA.
[21] http://www.eere.Energy.Gov/buildings/energyplus/weatherdata/1_africa_wmo_region_1/E .
Cite This Article
  • APA Style

    Ahmed A. Rizk, Gregor P. Henze. (2014). Survey of Airflow around Multiple Buildings. American Journal of Energy Engineering, 2(1), 27-36. https://doi.org/10.11648/j.ajee.20140201.14

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    ACS Style

    Ahmed A. Rizk; Gregor P. Henze. Survey of Airflow around Multiple Buildings. Am. J. Energy Eng. 2014, 2(1), 27-36. doi: 10.11648/j.ajee.20140201.14

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    AMA Style

    Ahmed A. Rizk, Gregor P. Henze. Survey of Airflow around Multiple Buildings. Am J Energy Eng. 2014;2(1):27-36. doi: 10.11648/j.ajee.20140201.14

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  • @article{10.11648/j.ajee.20140201.14,
      author = {Ahmed A. Rizk and Gregor P. Henze},
      title = {Survey of Airflow around Multiple Buildings},
      journal = {American Journal of Energy Engineering},
      volume = {2},
      number = {1},
      pages = {27-36},
      doi = {10.11648/j.ajee.20140201.14},
      url = {https://doi.org/10.11648/j.ajee.20140201.14},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajee.20140201.14},
      abstract = {This survey paper offers a review of past and present studies related to air flow around multiple building configurations to achieve energy savings and thermal comfort in hot climate regions in the presence of increased urbanization. The purpose of this review paper is to provide guidelines based on previous studies for the successful design of group housing in a hot and arid climate such as Egypt to improve air flow around multiple rows of buildings. This study presents several types of courtyard designs inside houses that provide direct air flow at windward sides inside compactly planned buildings. Next, air flow is described around one individual building and two buildings that have a passage between them. Furthermore, air flow around buildings is discussed to include several rows of buildings that range from rectangular linear to square shapes with flat and jack roofs, where the main goal is to achieve appropriate wind velocity at inlet surfaces, especially at the second and the third rows of buildings, and to avoid turbulence zones caused by wind around building. Finally, the effect of topography and urban mass on global wind velocity at the city scale is discussed.},
     year = {2014}
    }
    

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    T1  - Survey of Airflow around Multiple Buildings
    AU  - Ahmed A. Rizk
    AU  - Gregor P. Henze
    Y1  - 2014/02/28
    PY  - 2014
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    T2  - American Journal of Energy Engineering
    JF  - American Journal of Energy Engineering
    JO  - American Journal of Energy Engineering
    SP  - 27
    EP  - 36
    PB  - Science Publishing Group
    SN  - 2329-163X
    UR  - https://doi.org/10.11648/j.ajee.20140201.14
    AB  - This survey paper offers a review of past and present studies related to air flow around multiple building configurations to achieve energy savings and thermal comfort in hot climate regions in the presence of increased urbanization. The purpose of this review paper is to provide guidelines based on previous studies for the successful design of group housing in a hot and arid climate such as Egypt to improve air flow around multiple rows of buildings. This study presents several types of courtyard designs inside houses that provide direct air flow at windward sides inside compactly planned buildings. Next, air flow is described around one individual building and two buildings that have a passage between them. Furthermore, air flow around buildings is discussed to include several rows of buildings that range from rectangular linear to square shapes with flat and jack roofs, where the main goal is to achieve appropriate wind velocity at inlet surfaces, especially at the second and the third rows of buildings, and to avoid turbulence zones caused by wind around building. Finally, the effect of topography and urban mass on global wind velocity at the city scale is discussed.
    VL  - 2
    IS  - 1
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Author Information
  • Architectural Engineering Department, Faculty of Engineering, University of Tanta, Egypt

  • University of Colorado at Boulder, CEAE Department ? 428 UCB, Boulder, Colorado 80309-0428 U.S.A

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