Research projects

Research projects

FASADA develops constantly innovative products and technical solutions that contribute to increase of the energy efficiency and sustainability of the buildings. The company actively participates in research projects that are realized under European Union’s Framework Programmes.
CHEK
Data-driven services aiming to increase energy efficiency in buildings rely on technological advancements such as the Internet of Things (IoT), Big Data, artificial intelligence and distributed computing. However, there are barriers…
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D-HYDROFLEX
Data-driven services aiming to increase energy efficiency in buildings rely on technological advancements such as the Internet of Things (IoT), Big Data, artificial intelligence and distributed computing. However, there are barriers…
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INHERIT
Data-driven services aiming to increase energy efficiency in buildings rely on technological advancements such as the Internet of Things (IoT), Big Data, artificial intelligence and distributed computing. However, there are barriers…
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META-BUILD
Data-driven services aiming to increase energy efficiency in buildings rely on technological advancements such as the Internet of Things (IoT), Big Data, artificial intelligence and distributed computing. However, there are barriers…
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BUILDON
Data-driven services aiming to increase energy efficiency in buildings rely on technological advancements such as the Internet of Things (IoT), Big Data, artificial intelligence and distributed computing. However, there are barriers…
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ASHVIN
Ashvin aims at enabling the European construction industry to significantly improve its productivity, while reducing cost and ensuring absolutely safe work conditions, by providing a proposal for a European wide digital…
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MATRYCS
Data-driven services aiming to increase energy efficiency in buildings rely on technological advancements such as the Internet of Things (IoT), Big Data, artificial intelligence and distributed computing. However, there are barriers…
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HEAT-INSYDE
HEAT-INSYDE advances a ground-breaking closed-loop concept using thermochemical material to a compact domestic heat storage prototype at a Technology Readiness Level of 7 through a user-centric approach with real-life…
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BIM-SPEED
The Horizon2020 project BIM-SPEED aims to address this challenge by developing a combination of methodologies and tools with one central information source at its core: the Building Information Model (BIM)…
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ADAPTIWALL
The ADAPTIWALL concept introduces a new approach for maintaining a comfortable indoor climate at reduced energy consumption. The innovative prefab wall system introduces energy savings by allowing an adaptive …
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AMANAC
The scope of the AMANAC-CSA is to create an effective and long lasting collaboration and coordination platform within all the Advanced Materials and Nanotechnology projects (AMANAC), approved in the frame…
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E2EVENT
E2VENT will develop, demonstrate and validate a cost effective, high energy efficient, low CO2 emissions, replicable, low intrusive, systemic approach for retrofitting of residential buildings, able to achieve remarkable…
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EASEE
EASEE final goal was to improve the energy performance of existing residential building stock. For this purpose, the project will develop a new holistic approach to envelope retrofitting based on a combination of…
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H-HOUSE
The project aims to develop a number of new building systems suited to a society where environmental awareness and a high degree of living comfort are both required. The concept of the project is to develop…
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P2ENDURE
P2Endure aims to provide scalable, adaptable and ready-to-implement prefabricated Plug-and-Play (PnP) systems for deep renovation of building envelopes and technical systems. These innovative solutions…
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