EVPLAN looks for develop tools use as base to strategic decision making that benefits users and futures consumers of electric vehicle. To reach it out, three tools will be developed 1) of support for the deployment od recharge stations. 2) for the estimation of auxiliary services, that support the optimal sizing of the recharge stations or the better site attending to different factors and indicators of the region. 3) for the users of electric vehicle, to help them finding the recharge stations more convenient according to destiny, the vehicle status and the availability of the recharge station.
- Development of algorithms for the location and sizing of the recharge stations.
- Tools for planning the deployment of the recharge stations.
- Tools for estimate the complementary services.
- Development of a website.
- Development of an algorithm that localize the places in which to install recharge stations according to traffic flow and proximity to places of affluence.
- Development of the prototype and website of an algorithm for planning the deployment of the recharge stations.
- Development of the prototype and website of an algorithm for the estimation of the complementary services.
- Participate in validation tests and correction of possible errors found.
- Development of algorithms for the localitation and sizing of the recharge stations.
- Tool for the plannification of the deployment of the recharge stations in a website.
- Tool to estimate the complementary services on a website.
Development of methodologies and tools for the design of urban transformation strategies in cities.
CDTI INNO-ESPAMAROC ENERGY
CARTIF Budget: 55,000 €
Duration: 01/02/2022 – 30/06/2024
Paula Hernamperez Manso
Smart Grids projects:
The proliferation of renewable energies and the electric charges that operates with continuous current originates a growing interest in electric grids that operates with continuous current. This is due to the higher efficiency, security, flexibility and feasability that grids have than those ones that operates with alternate current.
The MUSE GRIDS project wants to contribute to the development of interconnected local energy network management systems to make better use of the synergies between these networks.
INTERPRETER will overcome these limitations by means of a modular grid management solution consisting of a set of 10 software applications for an optimal design, planning, operation and maintenance of the electricity grid
The TALENT project aims to increase the flexibility of the electrical system by reducing the cost associated with the integration of batteries in the electrical network.
The SocialRES project seeks to increase scientific knowledge about the non-technological aspects that prevent the adoption of social energy alternatives such as cooperatives, aggregators or crowdfunding platforms.
The objective of the Optigrid project is the research and development of concepts and services that allow greater flexibility in electricity generation and demand.
Urban water networks could became a source of renewable energy. Energy harvest in water industry using micro-hydropower technology.
HPC Ongrid project collaborates with Siemens Gamesa Renewable Energy (SGRE) in the develop and programming of different components of a hybrid generation plant controller.