EASI ZERo is a 42-month project organized in 8 work packages (WP), including 4 technical WPs. The structure of the work plan has been devised to ensure advanced material development for insulation products for deep renovation and construction that will be validated through digital model and simulated environment prior been modeled in real use cases.
- WP3 encompasses activities dedicated to the development of insulation materials.
- WP4 is dedicated to scale-up of materials and integration in usable products (insulation panels, foams, bricks, VOC removal paint and efficient windows). These components will be integrated all together or partially in a building renovation process, with full data available.
- In WP5, assembly of materials and components are optimized. The products are tested against standards and numerical modelling to demonstrate performance.
- In WP6, combined solutions will be simulated for 3 real use cases where global performance and impacts will be validated.
EASI ZERo system consists of components based on bio-sourced, recycled or re-used materials. It covers external and internal insulation on façade and roofs. Low carbon renders and plasters protect the insulation layer for a long durability. Windows and doors are included in the renovation system, especially with new lightweight and zero-emission frames. Indoor paint provides a safe and healthy finish. Thermal storage materials integrated into façade components provide thermal control to smooth the demand of heating and cooling. Finally, affordable and well-integrated PV tiles are proposed. Then the EASI ZERo system provides a holistic solution for the whole envelope.
Bio-sourcing and recycling bring a great environmental value to our system. Material sources are wood, used wood pieces, grown mycelium or recycled construction waste. The construction industry can produce locally any EASI ZERo components with simple manufacturing. Panels and mortars can be directly applied on wall’s surfaces with well-known practices. Panels can be assembled thanks to a new reversible bonding process, allowing unmounting without any damage to allow re-use after a simple requalification control.
A complete information package on the new material system will be delivered, including adequate information for decision-making and operation (digital tools and datasets). As requested by the Renovation Wave, enabled energy performance, sustainability, affordability, and health and well-being impact will be assessed and published. A general life cycle assessment will provide environmental, social and economic impact information. All information will feed in tracking record of materials and building’s history through associated passport implementation.