CLARION gathers a strong multidisciplinary team of 21 partners with complementary research, technical and business profiles, including four ports with inland waterway connections, the top-3 in Europe, in terms of container throughput, namely Rotterdam, Antwerp/Brugge and Hamburg in the North Sea and Constantza, the largest European port in the Black Sea. CLARION ports handle 35.5% of the total container traffic in European ports as per EUROSTAT published 2021 data and provide access to the major inland waterways of the Rhine-Main-Danube axis, Scheldt and Elbe, ensuring significant impact of the application of results on the European maritime ports industry. 10 pilot demonstrations focused on making port infrastructure and hinterland transport resilient and sustainable. CLARION pilot demonstrations will focus on going beyond the SotA to test and deploy smart and sustainable quay walls, monitoring and management system for the corrosion of port infrastructure with an automated floating mobile measuring system, shore tension applicability for RORO and CONRO terminals during storm conditions, flood impact control DT, dredged sediment reuse in port infrastructure, NBS applicability in maritime ports, DT to support the resilience of connected inland waterways infrastructure, a DT for extreme weather forecasts, federated learning using aerial drones/satellite data/in-situ sensors for cadastral measurements and response to extreme weather, and an EMS for extreme weather events. Though each pilot demonstration will be carried out in one of the CLARION ports, achievements will be shared among them and beneficial results will be adopted in the short-term. International stakeholder communities will be engaged to create an Open Innovation Ecosystem that will promote collaboration and sharing of experiences supported by an AB consisting of experts in climate resilience in ports to ensure that transferability of CLARION’s results will not be limited among CLARION ports.

SeaChem will provide high-level R&D training for early-stage researchers in the emerging field of marine biomass production. By addressing hot issues in offshore seaweed cultivation and its application as a source of renewables, Seachem will take away current hurdles for its wide adoption in the EU. Concurrently, the interdisciplinary SeaChem network (composed of academia, industry and sector organisations) and the variety of scientific disciplines integrated into the SeaChem R&D scheme, guarantees a multidisciplinary formation of the 10 next-generation highly-trained doctoral candidates. The main SeaChem R&D objectives are indeed spread over construction engineering (development of stainless steel offshore structures), biology (optimal conditions for seaweed cultivation) and chemical engineering (intensified extraction of valuable compounds). By the combination of state-of-the-art research topics with multiple transferrable and social skills training events, SeaChem will ensure the broad scientific and personal development of the doctoral candidates. The high societal and economic relevance of this field is supported by the ever increasing societal pressure for the development of renewable resources, also relieving the dependency of the EU on imported (fossil) raw materials. The growing worldwide market in renewable and sustainable products is driving this economic sector and is already creating a large need of highly-skilled professionals, hence ensuring a myriad of job opportunities for the doctoral candidates.

The main goal of INNO2MARE is to strengthen the capacity for excellence of Western Slovenian and Adriatic Croatian innovation ecosystems through a set of jointly designed and implemented actions that will support the digital and green transitions of the maritime and connected industries. Based on an in-depth mapping of the ecosystems and needs & gaps analysis, the consortium will formulate a long-term R&I strategy aligned with regional, national and EU strategies, as a visionary framework, and a joint action & investment plan, with concrete steps for building coordinated, resilient, attractive and sustainable maritime innovation ecosystems. To support the joint strategy and provide a model for the future collaborative R&I of the ecosystems’ actors, the project will implement three R&I pilot projects that address some of the key challenges related to maritime education and training, security & safety in marine traffic as well as energy conversion and management systems’ efficiency. These pilots will be the basis for further development, scale-up and translation of the generated research results into innovative business opportunities through the coordinated mobilisation of public and private funding. The consortium will also implement innovative programmes that will support the engagement of citizens in the innovation processes, knowledge transfer for mutual learning, entrepreneurship & smart skills training and attraction of best talents, involving more than 1.000 participants across the Quadruple Helix. In all the project activities, the two ecosystems will strongly benefit from the sharing of best practices of the Flemish ecosystem, one of the most developed maritime innovation ecosystems globally. The project will contribute to reducing the innovation divide in Europe by systematically connecting the innovation actors within and between the ecosystems and creating synergies in R&I investments’ planning and execution, thus developing a true innovation culture.