Solar PV
Roof and facade-integrated PV options sized to load profile and orientation.
Sustainability
Net Zero direction, evidenced — not asserted.
The built environment is a major share of global emissions. Modular construction, when engineered properly, delivers measurable reductions in embodied carbon, faster installation and assets that operate at low energy demand for decades.
−40%
Embodied carbon vs traditional
+50%
Speed uplift to operation
100%
Recyclable & relocatable
EPC A
Performance baseline target
The challenge
Construction is a primary source of global emissions.
Cement, steel and on-site logistics dominate the carbon footprint of new buildings. Reducing both embodied and operational carbon requires a shift in how buildings are designed, manufactured and delivered.
- Embodied carbon engineered out of structural specification
- FACTORY-CONTROLLED material yield reduces site waste
- Logistics optimised — fewer site deliveries, lower transport emissions
- Operational performance designed in from day one
Energy & operational performance
Low-carbon systems engineered into the envelope.
Energy-saving features are not bolted on — they are coordinated into the manufactured envelope from RIBA Stage 2. Hover any system to see how it integrates.
Air source heat pumps
Low-carbon heating and cooling specified as standard for residential and commercial.
Part L insulation
Building fabric specified to current Part L1A/L2A and continuously improved.
Heat recovery ventilation
MVHR systems engineered into the manufactured envelope for low operational carbon.
LED lighting
Low-energy lighting throughout, with daylight and presence sensing where appropriate.
Water-saving fixtures
Low-flow sanitaryware and grey-water options for residential and hospitality.
Rainwater harvesting
Storage and reuse engineered into the foundation and drainage strategy.
Biodiverse roofs
Brown / green roof options for biodiversity net gain and SuDS performance.
Carbon strategy
Reducing carbon at every stage.
From specification through to operation and end-of-life — every stage is measured, documented and optimised.
01
Specify
Low-carbon structural systems and certified material sources.
02
Manufacture
Factory yield control, renewable-powered assembly, minimal waste.
03
Operate
Energy systems engineered for EPC A and ongoing performance monitoring.
04
Reuse
Modules designed for relocation, refit or full disassembly at end of life.
Materials & circularity
Designed to be reused, not demolished.
Modules are bolted, not cast. That single decision unlocks relocation, refit and end-of-life material recovery — keeping value in circulation rather than in landfill.
Demountable
Bolted connections enable disassembly without destruction.
Relocatable
Whole modules redeployable to new sites with minimal rework.
Recoverable
Steel, aluminium and timber streams returned to certified recyclers.
Accreditations & frameworks
Working to recognised benchmarks.
We design and document to support the accreditations our clients are targeting — without overclaiming what a single building system can guarantee.
EPC A
Schemes engineered to achieve EPC A as a baseline target where regulation applies.
BREEAM-accreditable
Material selections, construction methods and operational systems support BREEAM ratings up to Excellent.
Passive House direction
Detailing and airtightness discipline enable a path to Passive House where the brief requires.
Next Steps
Bring our precision-engineered solutions to your next façade project
Talk to us about deploying our capability and delivery disciplines to your scheme.