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 research team from the Institut de Robòtica i Informàtica Industrial (IRI, CSIC-UPC), together with the Centre de Disseny d'Equips Industrials (CDEI) of the Universitat Politècnica de Catalunya - BarcelonaTech (UPC), are participating in the national CASANDRA project to develop a digital manufacturing solution that will make it possible to establish a bidirectional data flow for continuous digital integration throughout the supply chain across the product life cycle. This integration will be achieved through digital twins and data-based models that are continuously updated thanks to distributed monitoring and control tools.
- The Materials Interfaces and Colloid Engineering group (INTERCOLL) at the Universitat Politècnica de Catalunya - BarcelonaTech (UPC), in collaboration with the Life Cycle Thinking group at the University of the Basque Country (EHU), are taking part in the BIOCHOLESTEROID project to develop new bio-based smart materials with optical response for advanced applications.
- The research groups Structural and Materials Technology (ATEM) and the Construction Engineering (EC) at the Universitat Politècnica de Catalunya - BarcelonaTech (UPC) are working on the RE-STEEL project, which aims to develop an efficient methodology for assessing the rehabilitation of existing steel structures.
- The project is led by a team from the Rehabilitation and Architectural Restoration (REARQ) at the Universitat Politècnica de Catalunya - BarcelonaTech (UPC), in collaboration with the Interdisciplinary Group on Building Science and Technology (GICITED), also from UPC, and CONSTRAULA.
