Authors: Saad F. Al Nuaimi

Abstract:

Energy consumption is a very important topic these days especially regarding air conditioning in residential buildings, since this takes the biggest amount of energy in buildings total consumption, residential buildings constitute the biggest percentage of energy consumption in Bahrain. This research reflects on the effects of shading percentage in different solar orientations on the energy consumption inside residential buildings (domestic dwellings). The research as found that, there are different effects of shading in changing building orientation: • 0.69% for the shading percentage 25% when the building is oriented to the north (0º); • 18.59% for 75% of shading in north-west orientation (325º); • The best effect for shading is in north-west orientation (315º); • The less effect for shading was in case of the building orientation is the north (0º).

Keywords: Bahraini buildings, Building shading, energy consumption, residential buildings, shading effects.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1078160

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References:

1] Yilmaz Z. Evaluation of energy efficient design strategies for different climatic zones: Comparison of thermal performance of buildings in temperate-humid and hot-dry climate. Energy and Buildings, 2007, 39, 306-316.
[2] Stoakes, P. J.. Simulation of airflow and heat transfer in buildings. M.Sc. Thesis, Virginia Polytechnic Institute and State University. 2009.
[3] Srivastava-modi, S. Evaluating the Ability of equest Software to Simulate Low-energy Buildings in a Cold Climatic Region. Master. 2011.
[4] BMEW. Statistical book 2005, Bahrain Ministry of Electricity & Water 2005.
[5] Justin Shultz, Lucas Witmer, JE_Rey r. S. Brownson, impact of shade on hvac energy consumption in buildings: a residential case study, The Pennsylvania State University, 2011.
[6] Mc Pherson, J.R. Simpson, P.J. Peper,.S.E. Maco, Q. Xiao, Municipal forest benefits and costs in five U.S. cities, Journal of Forestry 2005, 103 411- 416.
[7] Geoffrey H. Donovan , David T. Butry, The value of shade: Estimating the effect of urban trees on summertime electricity use. Energy and Buildings, 2009, 41 (662-668).
[8] Matthew A. Jungclaus and Quinn S. Weber , Shading System: Reducing Home Energy Usage, School of Engineering and Applied Science, Department of Mechanical Engineering, Automated spectra, may 2012.
[9] Ministry of housing projects and development of dwelling units, Development of dwelling units, Physical planning directorate, Technical affairs directorate. July, 1993.
[10] Hong, t., s. K. Chou, et al. "building simulation: an overview of developments and information sources." building and environment 2000, 35(4): 347-361.
[11] Rallapalli, H. S. A Comparison of Energyplus and eQuest Whole Building Energy Simulation Results for a Medium Sized Office Building, Arizona State University, 2010.
[12] Kawamoto, S., Environmentally Conscious Design and Inverse Manufacturing, 2005. Eco Design. Fourth International Symposium. 2005.