Comparative analysis of traditional housing vulnerabilities against Cleado’s monolithic engineering.
Traditional roofs are the primary point of failure in high-wind events.
100% success rate in Category 5 hurricane survival. Our monolithic architecture eliminates roof-wall separation, ensuring zero structural failure under extreme wind stress and 400kg/m² snow loads.
High energy dependency to maintain livable temperatures.
High-performance GFRP sandwich panels providing U-value 0.10–0.15 W/m²K — exceeding Passivhaus standards. The dome’s 25% superior surface-area-to-volume ratio and natural stack-effect ventilation maintain stable 18–22°C indoor temperatures without heavy air conditioning.
Combustible materials and porous foundations.
Non-combustible materials that melt without ignition above 400°C. The monolithic, sealed base provides a natural barrier against water ingress and rising flood levels.
From flat-packed delivery to a fully habitable permanent home in 12 hours. This is 60x to 180x faster than traditional wood-frame or concrete block industry standards.
No heavy machinery, no specialized labor, and zero water waste during assembly.
The dome’s continuous curved form creates natural stack-effect ventilation through the apex, eliminating the corner air stagnation common in rectangular buildings. The same geometric efficiency that sheds hurricane winds also circulates warm air in Arctic conditions and cool air in desert heat — passively, without mechanical systems.
From the Inuit igloo to the Mongolian yurt, dome geometry has been independently validated across every human culture and climate for ten thousand years. Cleado applies this empirically proven form in modern GFRP — permanently and at scale.
Operational Cost: 5,000 kWh/year solar production per unit.
Total Cost of Ownership: 40-80% lower lifecycle costs over 25 years compared to traditional assets. By removing utility debt and maintenance cycles, Cleado transforms housing into a sustainable economic asset.
Performance is the bridge between a temporary shelter and a sovereign home. Cleado’s empirical results prove that rapid deployment does not require a compromise on permanent resilience.