Infrastructures of the energy industry

It is all those physical infrastructures that allow to generate, store and transform energy.

These are the services that our research groups can develop. For customized information on the services, please contact us.

 

Areas of service Applications of the service Scientific infrastructure
High voltage electrical systems Study, design and testing of conductive and insulating equipment for electrical distribution systems  
Mechanical characterisation of materials: constitutive and resistant Design, development (simulation, physical test and correlation) of structures and components for the energy industry (electricity pylons, water pipes and hydraulic machinery, components of wind or solar energy generators, etc.) REMM/LERMA Materials Laboratory
Advanced tests of components, structures and materials for the energy industry Advanced mechanical tests of structures and components: thin profiles of steel sheets (shelving, closures, steel framing, etc.) and mixed structure (concrete-steel) based on thin profiles.  REMM/LERMA Materials Laboratory
Simulation and optimisation (parametric and topological) of components Analysis and diagnosis of faults and breaks in the components service REMM/LERMA Materials Laboratory
Experimental analysis of components (extensometry and digital image processing). Mechanical characterisation of materials: resistant, constitutive and in relation to durability REMM/LERMA Materials Laboratory
Analysis of structural integrity (static, impact, fatigue) Development of specific technical software tailored to needs REMM/LERMA Materials Laboratory
Development of related technical software Industrial doctorates, research tailored to company needs and outsourcing of R&D activities REMM/LERMA Materials Laboratory
Customised industrial research projects Design of contents and teaching of technical courses relating to various aspects of structural analysis REMM/LERMA Materials Laboratory
Training courses tailored to industry Determination of constants of materials to implement material constitutive equations of numerical models REMM/LERMA Materials Laboratory
Characterisation of materials to apply them to numerical simulations Experimental validation of the results of numerical simulations REMM/LERMA Materials Laboratory
Correlation between numerical simulation and physical experimentation Support for corporate research and development centres for standard simulation procedures REMM/LERMA Materials Laboratory
Design and development Design and development of experimentally validated simulation procedures REMM/LERMA Materials Laboratory
Research projects with companies CDAL laboratories

Energy, storage, energy infrastructure, electronic equipment, electrical equipment, power converters, sensor networks, IoT sensors, IoT communications, decision support systems, predictive maintenance, fault tolerant control systems, predictive models processes, industrial processes, machinery diagnostics, energy management processes design, development, numerical simulation, mechanical testing, experimental stress analysis, finite element simulation, software, extensometry, DIC, correlation, structures, components, 3D printing, additive manufacturing, fault and fracture analysis and diagnosis, mechanical characterization , materials, endurance, fatigue, constitutive equations, tailor-made courses, training, technical software, industrial research, Industrial Research, Technological Innovation
Keywords
Energy