We are currently seeing a deceleration of renewable energy growth in Europe. This is partly attributed to the challenges for financing renewable energy projects. Reduced access to conventional financing options over the past few years has triggered innovative financing schemes to emerge, with crowdfunding attracting a lot of attention. CrowdFundRES recognises the vast potential of crowdfunding for financing renewable energy projects. The project has been developed for and in cooperation with the three target groups: 1) Renewable energy project developers whose access to financing is getting more challenging 2) The part of the public that has an interest in investing even very small amounts of their savings in renewable energy projects 3) Crowdfunding platforms who act as intermediaries facilitating the financial transaction between the public and the project developers. The overall objective of the proposed project is to contribute to the acceleration of the renewable energy growth in Europe by unleashing the potential of crowdfunding for financing renewable energy projects. In order to achieve this, the work has been structured for achieving the following objectives: 1. Gain a deep understanding of the public’s perception of crowdfunding 2. Analyse the challenges faced by the application of crowdfunding for renewable energy projects in Europe 3. Develop guidelines that support easier, more effective and wider accepted practices in crowdfunding renewable energy projects 4. Apply the guidelines and review them based on practical experience 5. Improve the market and regulatory framework 6. Promote the crowdfunding concept and its advantages among those who could contribute or raise funds

The project Accurate Roms for Industrial Applications aims at developing an array of mathematical methods for constructing predictive reduced-order models (ROMs) with guaranteed accuracy, robustness, reliability and efficiency for applications involving complex physical phenomena. New approaches to this challenge are proposed here with a focus on the Euler and Navier–Stokes equations of fluid flow, two of the most challenging continuum models with an extraordinary rich range of industrial applications. The mathematical modeling and solution of the Euler and Navier-Stokes equations is sometimes cited as the greatest challenge in continuum modeling of physical phenomena. This topic is selected as our principal focus because of its intrinsic importance, but also because the mathematical methods developed in addressing this very challenging task may well have an impact on other fields of knowledge. We plan to tackle these challenging objectives in this staff exchange program by combining the unique expertise of our extended research team whose members have made significant progress in ROM research during the past decade. This academic expertise is cross-fertilized by the exchange with knowledge intensive SMEs ans start up and well established industrial partners that will benefit from the scientific and technological results of the team and will challenge the solutions found with applications in real world problems.