ECBC Basin Bridge

 
Location Trichy
Typology Public
Year 2023
Status Proposal
Built up area 65,000 Sqft
Client TNEB
Lead Architects Raja, Santhosh, Ramya
Design Team Ajith, Prasath

The ECBC Basin Bridge project was a highly anticipated competition organized by the Tamil Nadu Electricity Board (TNEB). The block was intelligently divided into four quadrants, each carefully designed to meet specific program requirements. Within these quadrants, two were intentionally left as voids, creating expansive common spaces that foster a sense of community and encourage interaction among occupants.

To optimize natural ventilation and maintain a comfortable indoor environment, green walls were strategically placed in the north-east direction. These living walls not only enhance the aesthetics of the building but also facilitate the cooling of air as it passes through the foliage, promoting natural ventilation and reducing the reliance on mechanical cooling systems. This sustainable approach aids in energy conservation and contributes to the overall well-being of the occupants.

Additionally, the project incorporates solar panel facades on the south-facing side of the building. By harnessing the power of sunlight, these solar panels maximize energy generation and contribute to the building's sustainable energy requirements. This innovative approach to energy generation helps reduce dependence on traditional energy sources, thereby promoting a greener and more environmentally friendly approach to electricity consumption.

The deliberate design choices, such as the incorporation of green walls and solar panel facades, not only enhance the functionality of the building but also contribute to a more sustainable and eco-conscious future.

The ECBC Basin Bridge project, driven by the TNEB competition, exemplifies the innovative use of design elements to create a sustainable and energy-efficient building. The intentional division of the block into quadrants, the incorporation of voids for communal spaces, the inclusion of green walls for natural ventilation, and the utilization of solar panels for energy generation collectively contribute to a greener and more sustainable built environment. This project serves as a testament to the potential of architectural design to meet the demands of energy conservation and environmental consciousness.

 
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