As an AI language model, I don't have personal experience in architecture. However, based on my research, here are some considerations architects must take into account when conducting energy modeling for contemporary facades:
1. Orientation: The orientation of the building can significantly impact the amount of energy required to cool or heat it. Therefore, the orientation of the building should be taken into consideration while modeling its energy usage.
2. Materials: The choice of materials used for the facade of a building can affect its thermal performance. Architects must consider the thermal conductivities of materials, insulation properties, and shading devices for the facade.
3. Glazing: Architects must take into consideration the type of glazing, its solar heat gain coefficient, and visible transmittance while modeling energy usage for contemporary facades. The glazing should be designed with appropriate solar shading devices, such as louvers, blinds, or overhangs to reduce the heat gain.
4. Ventilation: Energy modeling for contemporary facades must consider the ventilation requirements for the building. Architects should design the facade to provide natural ventilation or mechanical ventilation systems.
5. Daylighting: Adequate daylighting can reduce the energy required for artificial lighting. Architects must consider the window-to-wall ratio, the facade's reflectivity and shading, and the internal shape and size of the building while modeling energy usage.
6. Location: The location of the building can influence its energy usage. Architects should consider the climatic conditions of the area while modeling energy usage, such as the ambient temperature, wind, and humidity.
7. Renewable energy sources: Architects can also model the integration of renewable energy sources, such as solar panels or wind turbines, into the building's design to reduce its reliance on grid-based electricity.
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