Sister projects
Know our sister projects!
We are very proud of our sister projects!! A short description of each of them follows as we are sure there can be plenty of interesting information to draw from these project efforts.
Hycool-IT
The goal of HYCOOL-IT project is to develop a set of processes supported by both digital and technical equipment innovative solutions for an efficient and reliable development of IT Server Rooms for advanced tertiary buildings, with a special focus on its replicability through standardisation. In parallel, a highly innovative Rack-integrated adsorption chiller for waste-heat powered server cooling is developed and optimized to carry out efficient liquid cooling of IT servers and, simultaneously, provide cooling to the server room itself in a compact, self-contained, and cost-effective way.
HEATWISE
The HEATWISE project tackles the integration of waste heat and thermal energy management in tertiary buildings with significant IT loads for the minimization of waste heat, maximization of energy efficiency, and generation of additional value. Through pilots in Denmark, Poland, Switzerland, and Turkey, HEATWISE aims to pioneer innovative solutions, encompassing hybrid (liquid and air) cooling technology, digital twin-supported holistic data management system, integrated multi-objective building energy management system, and a self-assessment and optimization tool, complemented by a knowledge-sharing platform.
MODERATOR
Data centres are among the major contributors to global energy consumption, while the majority of the supplied energy is conversed to heat. As data centres surge, so does the need for efficient solutions to counter the environmental toll of these energy-intensive hubs. The EU-cofunded project MODERATOR focuses on the improvement of the efficiency and sustainability of data centres by developing an integrated system based on immersion cooling combined with a novel waste heat recovery and thermal energy storage system, using phase-change materials, and a multilayer insulation system. The major outcome is the operation and demonstration of a fully automated integrated prototype combining a 40kW immersion cooling and a 500kWh thermal energy storage system for waste heat recovery and seasonal storage.