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  • IK4-IKERLAN Annual Report 2014
    other words the service life performance and safety of storage devices We have validated a methodology to predict battery life on the basis of battery application We have developed control algorithms for the monitoring and management of batteries and finally we have validated a method so that the batteries of the electrical storage systems remain within the required temperature range We would also like to make mention of the agreement

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  • IK4-IKERLAN Annual Report 2014
    modelling The main aims are to research the benefits of lithium ion batteries in terms of duration and service life and to investigate and determine their level of charge and health Along this line we have developed a degra dation model for LFP graphite technology algorithms for estimating the level of charge and health for this technology Similarly we have collaborated with CIC EnergiGUNE in order to determine the me chanisms of degradation DESCRIPTION The aim of this project is to develop thermal beha viour models for Electrical Storage Systems ESS which are comprised of lithium ion cells or batteries for implementation in a design tool for thermal ma nagement systems The aim of this tool is to shorten the design time for thermal management systems for ESSs as well as allowing for design optimisation in three main aspects performance safety and cost Thermal mo dels are based on two modelling techniques com putational fluid dynamics CFD and reduced order modelling ROM OUR CONTRIBUTION The development of design methodologies and thermal management system integration based on multilevel virtual modelling tools Development and implementation of advanced and efficient mathematical models that can describe the thermal behaviour of lithium ion batteries and their associated thermal management system Construction of real prototypes and experimental validation of these models and their proposed de signs Design optimisation improvement and industrialisa tion based on reliable virtual models Storage of electrochemical thermal and marine energy PARTICIPANTS CIC Energigune coordinator Grupo APERT Dpto de Electrónica y Telecomunicaciones de UPV EHU IK4 IKERLAN Azti Tecnalia Dpto de Química Inorgánica de UPV EHU IK4 CIDETEC Tecnalia Research and Innovation Dpto de Ciencias y Técnicas de la Navegación Máquinas y Construcciones Navales de UPV EHU DURATION 2012 2014 PROGRAMME ETORTEK FILE IE12 335 ADMINISTRATION Department of Economic Development and Competitiveness GV

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  • IK4-IKERLAN Annual Report 2014
    Enea from the ACEDE cluster also participated in the project and prototypes were installed in ten homes in Arrasate Mondragón in addition to a demonstration room at the Garaia Innovation Park in the same municipality RESULTS Available and scalable web application Multi device access through the web browser from mobile phones to large desktop screens Automatic data collection of energy consumption in the dwelling Promotion of user awareness and changes in habits DESCRIPTION We have developed an electrical storage system using lithium ion batteries for telecommunications applications The main task was to analyse the reliability of the system in order to ensure the system s response throughout the product life cycle To achieve this we selected the best battery for the required application and determined the operating conditions of the batteries based on the application The reliability of the electronic design has also been validated via electromagnetic compatibility EMC testing and field testing RESULTS A prototype for a reliable storage system using lithium ion technology for a back up application on a telecommunications station Compliance with EMC UNE EN 61000 6 3 on emissions and UNE EN 61000 6 2 on immunity Electrical performance validation at various temperatures Product service

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  • IK4-IKERLAN Annual Report 2014
    model At Fagor Arrasate we consider ourselves to be a high tech company due to the kinds of complex projects that we take on and for the servicing of several demanding markets such as the automotive iron and steel and electrical appliances sectors Therefore taking into account the ever increasing pressures on the sales price exerted by our competitors R D is necessary in order to create a portfolio of high performance products that we can direct at the top customer segment automobile manufacturers and large TIER1 s and thus avoid price wars How has the relationship with IK4 IKERLAN evolved We have had an ongoing relationship with IK4 IKERLAN for many years and in the past it was very much oriented to product development However in recent years this relationship has brought us closer with the enhancement projects that we have taken on at Fagor Arrasate in the field of production efficiency The rhythmic production project was an implementation success thanks to IK4 IKERLAN which served as a catalyst for those that came later such as the standardisation of the electric project and the requirement and planning management of the project Also in 2014 we worked together to develop the Technology Roadmap which was the culmination of our revision process of the Strategic Reflection for the 2013 2016 period What is it that Fagor Arrasate values most about IK4 IKERLAN In my own experience as I have been involved in the aforementioned projects for those that required a cultural shift on the one hand IK4 IKERLAN had an advantage that none of its competitors could provide knowledge of the co operative and the mindset of our partners which makes the people at Fagor Arrasate participating in these projects feel close to IK4 IKERLAN because you understand us We often

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  • IK4-IKERLAN Annual Report 2014
    the least invasive solution currently found in the market has been patented by Laulagun RESULTS A monitoring system that can be modified to suit various requirements and working conditions that exist for onshore and offshore wind turbines An integrated sensor protected under patent which measures the axial and radial clearances of bearings on offshore blades Algorithm for determining the structural health of the bearing on the basis of information collected from various sensors Sensorisation of wind turbine blade bearings SECTOR Energy Renewable Energies SMEs make us big of the 10 3m of revenue for R D under contract in 2014 1 3m 13 was with SMEs From our beginning at IK4 IKERLAN we have always wanted to take that extra step by being committed to all our customers and in particular SMEs a business segment representing more than 59 of manufacturing employment in the Basque Autonomous Community BAC Assisting small and medium enterprises to become more competitive in our industry s sector has been one of our top priorities from the beginning but those of us that form part of IK4 IKERLAN intend to strengthen these ties even further in the future Innovative products and services result from our collaboration

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  • IK4-IKERLAN Annual Report 2014
    at IK4 IKERLAN we are leaders in work packages and demonstrators related to wireless communication technology and energy conversion systems DESCRIPTION In this project we aim to contribute to increasing the competitiveness of European industry by facilitating the change from mCore multicore to mCore manycore processors as beneficially as possible Among other advantages this new family of processors will provide their component products with processing systems that more efficient and customised to assigned tasks PROXIMA is pursuing the following strategic objectives to increase the real time performance of mixed criticality systems develop probabilistic analysis techniques formixedcriticalityapplications on multicore and manycore processors achieve a level of maturity for probabilistic analysis technology and reduce the cost of software design and the verification validation and certification of new generation mixed criticality systems OUR CONTRIBUTION At IK4 IKERLAN we are responsible for research in the railway sector We are working on a case study for mixed criticality systems combining real time control algorithms and security functions This representative example will be used to evaluate different solutions created by the project ICT and energy efficiency solutions for intelligent transport PARTICIPANTS IK4 IKERLAN coordinator IK4 IDEKO IK4 TEKNIKER Mondragon Unibertsitatea VICOMTECH IK4 CEIT IK4 DURATION 2014

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  • IK4-IKERLAN Annual Report 2014
    semiconductors and as a noteworthy milestone a 100 kW battery charger using SiC semiconductors has been designed developed and experimentally validated We have also been given approval for a European proposal being led by Infineon which commences in 2015 in order to improve our understanding of a new semiconductor technology gallium nitride In the field of electromagnetic components we have researched contactless energy transfer and worth mentioning is an agreement

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  • IK4-IKERLAN Annual Report 2014
    of this project is to design a transversal flow electrical machine using a multidisciplinary approach combining analytical and numerical modelling thereby achieving an optimised overall design OUR CONTRIBUTION The design of these novel electric generators is challenging for all levels of engineering Due to our multidisciplinary expertise we are developing electrical electromagnetic thermal and mechanical models in order to unify these into an optimisation algorithm to achieve a design for an optimised machine DESCRIPTION The aim of this initiative is to create a network to exchange knowledge and to train experts in energy efficient technology and applications The EMVeM network aims to train researchers to be able to transfer their future knowledge for the production of electric machines and vehicles that will leave a lighter ecological footprint without any reduction in competitiveness with regard to performance safety or functionality OUR CONTRIBUTION From inside IK4 IKERLAN we are generating knowledge in the area of efficient management of electrical systems with energy storage capacity mostly for their application in the transport sector For this purpose we are working on a doctoral thesis concerning the development of energy management strategies for transport applications that integrate electrical storage technologies Generators for offshore applications PARTICIPANTS

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