- The Environmental Engineering (ENMA) research group leads the WhATTer project with the aim of developing an innovative and sustainable solution for the treatment of textile wastewater through an electrochemical/alkaline electrolysis system that allows for simultaneous hydrogen production. The project is carried out in collaboration with the Textile Technology (TECTEX) and Polymeric Materials and Textile Chemistry (POLQUITEX) research groups at the facilities of the Institute of Textile Research and Industrial Cooperation of Terrassa (INTEXTER) at the Universitat Politècnica de Catalunya - BarcelonaTech (UPC).
- The Centre for Technological Risk Studies (CERTEC) at the Universitat Politècnica de Catalunya – BarcelonaTech (UPC) is coordinating the European Program for Wildfire-Prepared Communities (FIREPRIME), a project designed to develop tools and services for wildfire prevention in Europe, with the goal of improving safety in the wildland-urban interface by actively involving the community in its own protection.
- The Center for Technological Innovation in Static Converters and Drives (CITCEA) at the Universitat Politècnica de Catalunya – BarcelonaTech (UPC) has designed a smart wireless application developed to optimize the electricity consumption of high-power devices.
- The energy transition is reshaping the foundations of the power grid, driven by the massive deployment of renewable generation based on power electronics and the gradual disconnection of conventional fossil-based generation. In this context, grid operators will require support systems to provide flexibility, as renewable generation is highly variable.
- An international research team led by the UPC has created a hybrid device that combines, for the first time ever, molecular solar thermal energy storage with silicon-based photovoltaic energy. It achieves a record energy storage efficiency of 2.3% and up to 14.9% total solar energy utilisation.
- Energy consumption in training and inference of artificial intelligence (AI) models, such as large language models (LLMs) like GPT-4, has become a critical challenge due to its environmental impact and the costs associated with high-performance computing (HPC). The energy required to train these models and interact with them increases significantly as the models grow in size and complexity.
- The European project LIFE Biogasnet, coordinated by the Biological Treatment of Gaseous Contaminants and Odours Group (BIOGAP) at the Universitat Politècnica de Catalunya - BarcelonaTech (UPC), has validated a new biogas purification technology that improves the quality of this resource, produced in urban solid waste treatment plants and wastewater treatment facilities, while reducing the carbon footprint, thus promoting the concept of a circular economy. The new solution is based on efficient, low-cost biological technologies, combining a biotrickling filter with a nitrification bioreactor.
- The Heat and Mass Transfer Technology Center (CTTC) at the Universitat Politècnica de Catalunya - BarcelonaTech (UPC) participated in the Economic COgeneration by Efficiently COncentrated SUNlight (ECOSUN) project to develop a low-cost, concentrated thermal and photovoltaic cogeneration system that increases the system’s electrical efficiency.
- The Technological Development Center for Remote Acquisition and Data Processing Systems (SARTI) at the Universitat Politècnica de Catalunya - BarcelonaTech (UPC) participated in GIRASOL II, a project to develop a digital twin for photovoltaic plants by applying internet of things (IoT) technology, artificial intelligence techniques and immersive human-machine interfaces.
- The research group Barcelona Fluids & Energy Lab (IFLUIDS) and the Centre for Technological Innovation in Static Converters and Drives (CITCEA) of the UPC participate in the European project H-HOPE, which is focused on the development of solutions to produce clean energy based on water sources that have still not been exploited, such as pipes and water channels.
- Combining agricultural activity and the production of solar energy by means of photovoltaic panels is the aim of SYMBIOSYST, a project promoted by a consortium of 16 European partners including the UPC. As part of this project, technological tools will be developed to contribute to generating clean energy for the agricultural sector in Europe.
- The production of biogas through anaerobic digestion has been increasing exponentially in Europe in recent years. This is because it can be produced locally and has a clear positive effect on waste recycling, the generation of clean energy, sustainable development or climate action. In this context, the FertiLab project was launched, with the participation of researchers from the Department of Agri Food Engineering and Biotechnology (DEAB) of the UPC.
- The SCAPE project has been developed with the participation of the Power Electronics Research Group (GREP) of the Universitat Politècnica de Catalunya - BarcelonaTech (UPC). The aim is to advance towards design standardisation, cost reduction and an improvement in the features of electronic power conversion systems for the future generation of electric vehicles.
- The flexibility of electrical systems is fundamental in the process of energy transition towards more sustainable energy generation models. The European Commission promotes the development of solutions that respond to the challenges of managing electricity distribution networks in the future energy system based on renewable sources. An increasingly large proportion of fluctuating electricity generators, such as wind and solar systems, makes it difficult to calculate the loads that are being supplied.
- The Motion Control and Industrial Applications (MCIA) centre, the Terrassa Industrial Electronics Group (TIEG) and the Environmental Engineering (ENMA) group of the UPC participate in RHODaS, a project to improve integrated motor propulsion systems for multiple drive architectures with more efficient materials, new semiconductors, better heat management and standardisation of manufacture of power convertors.
