Abstract
Shading techniques constitute one of the most passive, beneficial strategies for reducing energy consumption in urban dwellings. Shading affects many factors, for example, the solar gains and radiations falling on the façade, which are considered the most significant in increasing the cooling energy demand in hot climates. This paper conducts a parametric study on external and internal shading devices and establishes their impact on energy consumption, daylight levels, and ventilation. The work was conducted using Integrated Environmental Simulation Virtual Environment (IES-VE) and Computational Fluid Dynamics (CFD) numerical methods. The results revealed that optimised shading can influence savings in terms of energy and cooling, in addition to the enhancement of daylighting and reduction of glare. After studying all these factors associated with the different shading techniques investigated, the findings revealed that all shades affect the energy, daylight and ventilation parameters positively. However, despite all external and internal shadings showing improvements, the egg crate shade was determined as that which provided the optimum energy saving, while enhancing daylight and improving natural ventilation for a sustainable building design.
Highlights
IntroductionThe radical increase in construction of highly glazed facades for commercial buildings in the UAE over the last years has caused an extraordinary increase in energy consumption and emissions
The radical increase in construction of highly glazed facades for commercial buildings in the UAE over the last years has caused an extraordinary increase in energy consumption and emissions.Highly glazed facades are increasingly constructed to meet the requirements of an international city like Dubai
The results are divided into two sections, namely the Integrated Environmental Simulation Virtual Environment (IES-VE) section, which shows a comparison of external and internal shadings examined in terms of energy consumption and cooling loads, in addition to the influence of the shadings on daylighting factor and illuminance levels
Summary
The radical increase in construction of highly glazed facades for commercial buildings in the UAE over the last years has caused an extraordinary increase in energy consumption and emissions. Glazed facades are increasingly constructed to meet the requirements of an international city like Dubai. High amounts glazing will conduct more solar heat in comparison to an insulated wall which can transmit 30% to 70% of solar radiation to the interior [1]. These massive highly glazed building in the UAE increase the amount of solar gains, and the penetration of heat indoors dramatically adds to the cooling loads during summer. The electricity consumption for lighting and cooling has increased drastically over the past 24 years, from 5 to 50 billion kWh according to Aboulnaga [3]
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