TECHNOLOGICAL CAPABILITIES
OCEAN ENERGY
- Tidal power, wave power, offshore wind power, ocean thermal energy conversion, energy form currents and blue energy or salinity gradient energy.
MARITIME TRANSPORT
- Energy saving, reduction of contamination and improvement in management of energy quality and emissions.
PORT ACTIVITIES
- Studies of the traffic of boats in ports and air quality, using data from the automatic identification system (AIS) during manoeuvres.
- Production and maintenance of shipyards.
MARINE LIVING RESOURCES
- Prediction of hydro-morphodynamic and ecological evolution.
- Management of coastal bays.
- Monitoring of estuaries.
- Use of meteo-oceanographic conditions.
- Automatic learning. Modelling and display of marine agriculture data.
- Integrated multi-trophic aquaculture (MTA) techniques.
- Analysis and effect of meteorological and seasonal variables on the breeding system.
- Systematic studies of localization and monitoring of marine species to understand their behaviour.
- Measure of surface circulation forced by waves breaking. Monitoring habitat degradation.
INFRASTRUCTURE
- Addressing the negative impact of coastal construction on biodiversity.
- Reduction of the acoustic impact and vibrations from these constructions.
- Establishment of standards for terminology and methodology.
- Control of wind turbines and electricity substations and numerical modelling to take advantage of wave energy.
THE BLUE BIOECONOMY & BIOTECHNOLOGY
- Studies of natural pressures on the sea and those derived from humans.
- Development of a European system for ocean observation.
- Estimations of the amount of plastic floating on the surface of the ocean.
- Comprehensive modelling to trace the movement of plastic over the ocean.
SHIPBUILDING AND REPAIR
- Manufacture of vessels. Efficient, digitalized, automated and modular production of boats.
- Integration of the industrial internet of things (IIoT).
MARINE NON-LIVING RESOURCES
- Supply of critical raw materials.
- Improvement in underwater capture equipment (collectors).
- Seawater processing techniques and desalination.
COASTAL TOURISM
- Improvement in coverage in time and space, and in the resolution and quality of marine observations.
- Water management with innovative systems to manage reserves and the planning of trips.
RELATED PROJECTS
- A multidisciplinary team of researchers from the Research Group in Smart and Sustainable Resources and Industries (RIIS), the Sustainable Mining Research Group (GREMS), and the Construction Materials and Roads (MATCAR) group at the Universitat Politècnica de Catalunya – BarcelonaTech (UPC) is leading the VALORFIN project. The aim is to develop a technological solution for the valorisation of the fine fraction of construction and demolition waste (CDW), transforming it into new low-CO₂-emission cementitious materials, while also reducing the presence of hazardous materials in this waste.
- A team led by the Electronic and Biomedical Instrumentation (IEB) research group at the Universitat Politècnica de Catalunya - BarcelonaTech (UPC) is developing an electronic chip that enables more objective detection of potential infractions in race walking, which are currently judged solely by visual observation. The technology, already tested in official competitions, provides accurate, objective, and fair data on race walkers’ loss of ground contact.
- The organisation CARBOPESCA, together with the research group Development Center of Remote Acquisition and Information Processing Systems (SARTI) and the Efficient and Robust Integrated Circuits and Systems (EFRICS) group, at the UPC, are leading the iPROPEZESPADA project, an initiative aimed at optimising the capture and management of swordfish fishing using artificial intelligence.
- 08/07/2025Project Headerrightno-repeat;left top;;auto20px The research groups River Dynamics and Hydrological Engineering (FLUMEN) and Construction Materials and Roads (MATCAR) at the Universitat Politècnica de Catalunya – BarcelonaTech […]
