Urban and Architectural Development in Amman Downtown between Natural Disasters and Great Heritage Lose: Case Study
Subject Areas : Urban DevelopmentBassam Abu-Awad 1 , Numan Abu-Hammad 2 , Ziad Abu-Hamatteh 3
1 - College of Engineering
Faculty of Architectural
Jerash University
Jerash
Jordan
2 - Civil Engineering Departments
Faculty of Engineering Technology
Al-Balqa Applied University
Amman (11134)
Jordan
3 - Civil Engineering Department
Faculty of Engineering Technology
Al-Balqa Applied University
Keywords:
Abstract :
Andreou, E. (2013). Thermal comfort in outdoor spaces and urban canyon microclimate. Renewable energy, 55, 182-188.
Andreou, E. (2014). The effect of urban layout, street geometry and orientation on shading conditions in urban canyons in the Mediterranean. Renewable Energy, 63, 587-596.
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.
ASHRAE. (2001). Fundamentals. American Society of Heating, Refrigerating and Air Conditioning Engineers, Atlanta, 111.
Blalock, H. M. (1972). JR. Social statistics. New York: McGraw-Hill.
Bourbia, F., & Boucheriba, F. (2010). Impact of street design on urban microclimate for semi-arid climate (Constantine). Renewable Energy, 35(2), 343-347.
Carr, S., Francis, M., Rivlin, L. G., & Stone, A. M. (1993). Public space. Cambridge, New York: Cambridge University Press.
China Meteorological Bureau. (2005). Climate Information Center, Climate Data Office and Tsinghua University, Department of Building Technology. China Standard Weather Data for Analyzing Building Thermal Conditions. Beijing - China Building Publishing House. (in Chinese)
Chinese State Bureau of Technology Supervision (CSBTS). (1994). Chinese Ministry of Construction. GB50178 Standard of Climate Regionalization for Architecture. Beijing: Standard Press of China (in Chinese).
Eliasson, I., Knez, I., Westerberg, U., Thorsson, S., & Lindberg, F. (2007). Climate and behavior in a Nordic city. Landscape and Urban Planning, 82, 72_84. . Retrieved from: http://dx.doi.org/10.1016/j.landurbplan.2007.01.020.
Erell, E., Pearlmutter, D., & Williamson, T. (2012). Urban microclimate: designing the spaces between buildings. Routledge.
Gehl, J. (2011). Life between buildings: using public space. Island Press.
Givoni, B. (1998). Climate considerations in building and urban design. John Wiley & Sons.
Höppe, P. (1999). The physiological equivalent temperature–a universal index for the biometeorological assessment of the thermal environment. International journal of Biometeorology, 43(2), 71-75.
Hwang, R. L., Lin, T. P., & Matzarakis, A. (2011). Seasonal effects of urban street shading on long-term outdoor thermal comfort. Building and Environment, 46(4), 863-870.
Lai, D., Guo, D., Hou, Y., Lin, C., & Chen, Q. (2014). Studies of outdoor thermal comfort in northern China. Building and Environment, 77, 110-118.
Li, S. (1994). User’s behaviour of small urban spaces in winter and marginal seasons. Architecture and Behaviour, 10, 95_109.
Lin, T. P., & Matzarakis, A. (2008). Tourism climate and thermal comfort in Sun Moon Lake, Taiwan. International Journal of Biometeorology, 52(4), 281-290.
Lin, T. P., Matzarakis, A., & Hwang, R. L. (2010). Shading effect on long-term outdoor thermal comfort. Building and Environment, 45(1), 213-221.
Marcus, C. C., & Francis, C. (Eds.). (1997). People places: Design guidelines for urban open space. John Wiley & Sons.
Maruani, T., & Amit-Cohen, I. (2007). Open space planning models: A review of approaches and methods. Landscape and urban planning, 81(1), 1-13. . Retrieved from: http://dx.doi.org/10.1016/j.landurbplan.2007.01.003.
Matzarakis, A., Rutz, F., & Mayer, H. (2007). Modelling radiation fluxes in simple and complex environments—application of the RayMan model. International journal of biometeorology, 51(4), 323-334.
Mayer, H., & Höppe, P. (1987). Thermal comfort of man in different urban environments. Theoretical and applied climatology, 38(1), 43-49.
Meng, X. W., & Setoguchi, T. (2010). Development of Urban Design Guidelines with Wind Tunnel Simulations for Downtown Districts in Winter Cities-New Urban Design Approaches for Cold Region Cities. Journal of Asian Architecture and Building Engineering, 9(2), 355-362.
Ministry of Housing and Urban-Rural Development of the PRC(MOHURD). (1994) Chinese standard for assessment parameters of sunlight on building GB/T50947- 2014. Beijing - Standard Press of China. (in Chinese)
Nikolopoulou, M., & Lykoudis, S. (2007). Use of outdoor spaces and microclimate in a Mediterranean urban area. Building and Environment, 42(10), 3691_3707. . Retrieved from: http://dx.doi.org/10.1016/j.buildenv.2006.09.008
Nikolopoulou, M., Baker, N., & Steemers, K. (2001). Thermal comfort in outdoor urban spaces: understanding the human parameter. Solar energy, 70(3), 227-235.
Nunez M. & Oke T. R. (1977) The energy balance of an urban canyon. Journal of Applied Meteorology, 16, 11-19.
Oliveira, S., & Andrade, H. (2007). An initial assessment of the bioclimatic comfort in an outdoor public space in Lisbon. International Journal of Biometeorology, 52(1), 69-84.
Tanabe, S.I. (1988) Thermal Comfort Requirements in Japan (Doctoral dissertation) Waseda University, Tokyo, Japan.
Setoguchi, T. (2004). Efficiencies of infill developments against snow problem in winter cities-the snow simulations for desirable block designs using wind tunnel. Journal of Asian architecture and building engineering, 3(2), 335-340.
Setoguchi, T. (2006). Urban design guidelines for the urban complex redevelopment project provided from environmental assessments with snow and wind simulations-The new urban design approaches with snow and wind environmental assessments for snow and cold regions. Journal of Architecture and Planning.
Setoguchi, T. (2009) The development of urban design planning process linking with snow and wind environmental assessments on the urban complex redevelopment project in snowy and cold cities, J. Archit. plan., AIJ, 74(642), pp.1777-1786.
Setoguchi, T., & Tsutsumi, T. (2007). Snow and wind environmental assessment on the public space comparing high-rise and medium-rise building blocks using the wind tunnel simulation. Journal of Architecture and Planning (Transactions of AIJ), (614), 167-174.
Shahrestani, M., Yao, R., Luo, Z., Turkbeyler, E., & Davies, H. (2015). A field study of urban microclimates in London. Renewable Energy, 73, 3-9.
Shimazaki, Y., Yoshida, A., Suzuki, R., Kawabata, T., Imai, D., & Kinoshita, S. (2011). Application of human thermal load into unsteady condition for improvement of outdoor thermal comfort. Building and Environment, 46(8), 1716-1724. Retrieved from: http://dx.doi.org/10.1016/j.buildenv.2011.02.013
Spagnolo, J., & De Dear, R. (2003). A field study of thermal comfort in outdoor and semi-outdoor environments in subtropical Sydney Australia. Building and environment, 38(5), 721-738. . Retrieved from: http://dx.doi.org/10.1016/S0360-1323(02)00209-3
China Meteorological Administration. (2014). The database of climate standard daily value in Chinese international ground switching center [database on the Internet]. Beijing (China): China Meteorological Administration, National Meteorological Information Center, Website of Chinese Meteorological Data. 1971-2014 [cited 2009-2014 Jul., Aug., Dec., Jan., Feb.]. Retrieved from: http://data.cma.cn/data/detail/dataCode/A.0029.0001.html (in Chinese).
The National Weather Service (NWS). (2011). The NWS Wind Chill Temperature (WCT) index [database on the Internet]. MD (US). . Retrieved from: http://www.nws.noaa.gov/om/cold/wind_chill.shtml
Thorsson, S., Honjo, T., Lindberg, F., Eliasson, I., & Lim, E.-M. (2007a). Thermal comfort and outdoor activity in Japanese urban public places. Environment and Behavior, 39, 660_684. . Retrieved from: http://dx.doi.org/10.1177/0013916506294937.
Thorsson, S., Lindberg, F., Eliasson, I., & Holmer, B. (2007b). Different methods for estimating the mean radiant temperature in an outdoor urban setting. International journal of climatology, 27(14), 1983-1993.
VDI. (1998). Methods for human biometeorological evaluation of climate and air quality for the urban and regional planning. Part I: Climate. VDI guideline 3787. Part 2. Berlin: Beuth.
Watanabe, N., Setoguchi, T., Sato, K., & Tsutsumi, T. (2016). New city block design approaches incorporating environmental assessment for downtown districts in cities with severe winter climates. Journal of Asian Architecture and Building Engineering, 15(3), 455-462.
Wu, H. (1994). Pedestrian-level wind environment around buildings (Doctoral dissertation, Concordia University).
ZHANG Hai-chang, PENG Xiao-lie. (2008). Mold Vigor Block: Shenyang Zhongjie Commercial Pedestrian Street User-friendly Research Analysis, Modern Urban Research, 23(12), 29-37.