Up to 95% of the existing structure of the building has been retained, significantly reducing the embodied carbon of the project.
Carefully selected building materials complementing the retention of the majority of the sub-structure and structural frame.
38% reduction in carbon emissions relative to a typical comparable new-build with an energy use intensity of 75.99 kWh/m2/year.
The existing façade will be internally insulated, improving the u-value and reducing uncontrolled heat transfer into / from the building.
All electric heat pump powered building, primed to take advantage of future grid decarbonisation.
Responsibly sourced, carbon absorbing timber used throughout in line with requirements of BREEAM Outstanding.
Absorbing carbon while boosting thermal control and air quality.
Up to 95% of the existing structure of the building has been retained, significantly reducing the embodied carbon of the project.
Carefully selected building materials complementing the retention of the majority of the sub-structure and structural frame.
38% reduction in carbon emissions relative to a typical comparable new-build with an energy use intensity of 75.99 kWh/m2/year.
The existing façade will be internally insulated, improving the u-value and reducing uncontrolled heat transfer into / from the building.
All electric heat pump powered building, primed to take advantage of future grid decarbonisation.
Responsibly sourced, carbon absorbing timber used throughout in line with requirements of BREEAM Outstanding.
Absorbing carbon while boosting thermal control and air quality.
Every detail at your fingertips, from temperature control and issue reporting, to gym and wellness class bookings, and offers from local cafés.
Water use smart controls and automated light detectors to effortlessly reduce everyday waste and energy.
Smart energy consumption technology infrastructure.