For the mass deployment of electric trucks, the FLEXMCS project aims to overcome challenges regarding the acceleration of the roll out of charging infrastructure, in expanding grid capacity and available charging infrastructure. FLEXMCS designs highly energy-efficient megawatt-charging hubs with multiport chargers, which improve the utilisation and can be used flexible, for HDVs during fast charging, but also at night for slower charging and for light vehicles. The project will integrate renewable energy sources in the charging hub to minimize energy losses and grid impact. Furthermore, the project will develop tools for optimal utilisation of charging infrastructure and user convenience. An Open Charging Framework architecture, will create real-time data exchange between CPOs and truck, to match the supply and demand of charging infrastructure. Part of the project is also the streamlining of the planning and installation of new charging hubs, identification of optimal geographical locations along TEN-T corridors and optimizing hub architecture and layout, and addressing technical and non-technical barriers. FLEXMCS will demonstrate and assess the FLEXMCS megawatt-charging hub concept and upscaling strategy, validating technology effectiveness and formulating business cases. The project partners include Vrije Universiteit Brussel as the coordinator, along with Hitachi Energy, JEMA Energy as charging infrastructure suppliers, ElaadNL representing grid operators, IVECO spa and DAF trucks regarding the interoperability for trucks, Bosch Service Solutions GmbH for access and control systems on the charging hub, Alfen for stationary energy storage, Ricardo, TNO, IDIADA Automotive Technology SA and Austrian Institute of Technology for the development of tools and algorithms, and ALICE and Gruber Logistics SPA for giving an end-user perspective on all systems.

Most of innovative businesses base their success on creating value through better use of intangible assets. Ecosystem Services constitute the most valuable intangible assets on earth and forests are the most precious Natural Capital in Europe. Therefore, ECOSTAR alliance aims to develop entrepreneurship and innovation skills and opportunities among Forest and Environmental Policy and Economics (FEPE) university departments in Europe, specifically targeting Italy, Spain, England and Romania. The project focuses on promoting and fostering the links among high education institutions and businesses operating in the field of Marketing and Economics of Ecosystems and Biodiversity (MEEB). Most of well-known FEPE university departments have developed several methodologies and tools connected with MEEB and in general with nature-based economy. However, universities curricula lack of knowledge transfer initiatives that allow the real commercialization of new processes, methods and services for the development of market-based mechanism for ecosystem services conservation. Therefore, the project aims to make the knowledge triangle a reality in the field of MEEB, providing sustainable business opportunities and real benefits for the environment. ECOSTAR will achieve its goals through the following main actions: - Delivering a series of specialized entrepreneurship and innovation trainings targeted to MEEB through multidisciplinary approaches to teaching and learning- Facilitate the co-creation of knowledge, through staff and learners mobility, an EU Business Plan Award, lobby and fundraising- Create an EU wide research and enterprise alliance to make a knowledge triangle a reality in the field of MEEBResults will have a strong EU-global dimension and transferability potential, capitalizing on existing wide university-business networks and through the partnership with Ecosystem Marketplace, a leading organization tracking ecosystems markets and tools in US and worldwide.

Having historically disposed of vast quantities of industrial, municipal, metallurgical and mining waste into the ground, societies have put into geological storage an enormous amount of resources in a range of materials of value such as metals and energy (in the form of biomass and polymers). Therefore, instead of considering these waste repositories to be a legacy waste issue and a long-term liability, a paradigm shift is required to view these installations as "resource hubs" for future recovery. The proposed research aims to contribute towards the development of a new and exciting research field related to resource recovery from existing waste repositories and seeks to address the following central question: Can resources, specifically elements of value (e.g. Au, Pd, Ag, Cu, Pb, Zn, Co, Ni, Sn and Cr), 'E-tech' elements used in clean energy and other environmental applications (e.g. neodymium and other rare earth elements) and energy (through enhanced methane generation) be recovered by leaching and other treatments whilst the material lies in situ, thus avoiding the need to actively mine the material and thereby minimising ecological and environmental impacts? The fundamental geoscience research question that underpins this is: How can we understand and manipulate the in situ biogeochemistry of the waste within the geological repository to recover resource? The rationale behind the research is to examine new technologies for resource recovery with a lower environmental impact than active ('dig and process') mining of wastes, or of virgin ores. The concept and technology of in situ leaching has been developed in the mining industry for recovery of uranium and copper, and is done by circulating solutions to extract the elements and/or stimulating and enhancing microbial leaching. The possibility of transferring this concept for application to recovery of resource from waste repositories has not been fully addressed previously. Wastes display diverse compositions, mineralogies and textures very different to that of ores and thus will require new science to understand and develop leaching methods to solubilise valuable components. We will consider resource extraction from the full range of wastes currently in UK waste repositories including industrial and commercial waste (anticipated to be metal-rich), incinerator and fuel ash, mineral wastes and municipal wastes to examine the idea of in situ leaching. We are particularly keen to identify during the grant which types of landfilled waste streams might be relatively enriched in certain resources and focus the research on recovery from these wastes as a starting point. We envisage that in situ leaching could sidestep many of the problems that prevent realisation of the resource potential of waste repositories, with important impacts not only in the UK but internationally. Furthermore, our aim is to not only investigate means to recover resource through in situ leaching but to also investigate how we can appropriately benchmark such processes (which we anticipate may have substantially lower environmental and human health impacts) in terms of life-cycle, human health and ecosystems service costs as well as public opinion for comparison to retrieval of landfilled resources by 'conventional' dig-and-process landfill mining and against conventional mining of the same resources. This aims to provide evidence to demonstrate not only that the techniques are technically feasible but that they offer reduced impact compared to conventional technologies, are acceptable to stakeholders and thus are a feasible and appropriate approach to future management of wastes.

The 2012 Energy Efficiency Directive (EED) establishes a set of binding measures to help the EU reach its 20% energy efficiency target by 2020. Countries have also set their own indicative national energy efficiency targets. To reach these targets, EU countries have to implement energy efficiency policies and monitor their impact. The Commission has also the task of monitoring the impacts of the measures to check that the EU is on track with its 2020 target. The objective of the ODYSSEE MURE 2015 proposal is to contribute to this monitoring: • By updating two comprehensive databases covering each EU MS; ODYSSEE on energy consumption and energy efficiency indicators, and MURE on energy efficiency measures; • By providing new and innovative trainings and didactical documents to national, regional and local administrations in EU MS to raise their capacity and expertise in the field of energy efficiency monitoring and impact evaluation. • By extending the evaluation of the impact of energy efficiency from energy and CO2 savings, as already done in ODYSSEE, to the multiple other benefits. The updating of two databases ODYSSEE and MURE will play a key role to provide updated and centralized information required by each MS and the Commission to assess, monitor and evaluate energy efficiency progress and the state of implementation of measures and their impact. The project will provide innovative training tools and documents in a very user friendly way to public administrations to help them in implementing the monitoring of the progress achieved with indicators, in designing new policy measures and assessing the impacts of these measures, not only in terms of energy savings, but also in terms of the other benefits linked to energy efficiency improvements. Finally, the project will try to provide an assessment of the multiple benefits of energy efficiency policies for all MS combing existing evaluation and new calculations.