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A simulation-based performance evaluation of new generation dynamic shading devices with multi-objective optimization
Shading devices are the integrated components of building envelopes, which are designed to protect interiors from the excessive amount of direct and indirect solar radiation. Blocking the sunlight, these devices reduce the operational cost of cooling systems, which implies an inverse proportionality...
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| Published in: | Journal of Building Engineering 2024-08, Vol.90, p.109322, Article 109322 |
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| container_title | Journal of Building Engineering |
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| creator | Kirimtat, Ayca Manioğlu, Gülten |
| description | Shading devices are the integrated components of building envelopes, which are designed to protect interiors from the excessive amount of direct and indirect solar radiation. Blocking the sunlight, these devices reduce the operational cost of cooling systems, which implies an inverse proportionality between the cooling energy consumption and desired thermal comfort. Therefore, in this study, a unique design for dynamic shading devices of an office building, located in the hot and humid climatic region, is proposed and presented from the early stages of the architectural design process. Above all, an innovative parametric model is created using the Grasshopper algorithmic modeling environment with the Honeybee and Ladybug plug-ins to overcome all difficulties of the manual design process. By employing the optimization plug-in of the Grasshopper software named Octopus, a performance evaluation based multi-objective optimization (MOO) method is introduced to find different cell dimensions of the devices for various orientations, south, east and west, of the office building. This research also investigates the potential of the proposed shading devices based on two major performance aspects, reducing the cooling load while increasing the thermal comfort of the office building, located at Bayrakli, Izmir, Turkey, latitude: 38° 27′ 44.00″ N and longitude: 27° 10′ 0.00″ E. The lowest cooling energy consumption is estimated as 8.35 kWh for 22nd of July 12:00 a.m. for the west orientation with the dimension of 100 × 100 cm, among other cell dimensions, which are 50 × 200 cm and 200 × 50 cm. The novelty lies behind the optimization of the conflicting performance features and the design of the new generation dynamic shading devices which would shed light on new shading device era.
•A multi-objective optimization of dynamic shading devices is presented.•The wing angles of the dynamic shading devices are being tried to be optimized.•The cooling loads of the office are reduced while thermal comfort is increased.•The climate of the office building location is hot and humid. |
| doi_str_mv | 10.1016/j.jobe.2024.109322 |
| format | article |
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| ispartof | Journal of Building Engineering, 2024-08, Vol.90, p.109322, Article 109322 |
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| language | eng |
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| source | ScienceDirect Freedom Collection 2022-2024 |
| subjects | Cooling energy consumption Dynamic shading devices Multi-objective optimization Thermal comfort |
| title | A simulation-based performance evaluation of new generation dynamic shading devices with multi-objective optimization |
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