Articles

PV plateform
T
France
Rambla de la thermodynamique, 66000 Perpignan
Thierry Talbert
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+33 (0)4 68 68 27 04
Laboratoire PROMES-CNRS
Photovoltaic
characterization of materials
smart-grid
defauts
The objectives are :
- Provide means of characterization of materials, PV/CPV cells, PV/CPV modules and scale-scale testing of solar devices from component to system (services / projects)
- Service activities: support for research
- Innovation / transfer assistance: support for industry and start-up
PV plateform :
- Electrical characterization of PV cells and PV modules (Rs, Rp ,Bypass diodes, Thermal parmeters)
- Measurements (Full day with 2 axes tracker, Natural sunshine, Partial and/full shading )
- Thermal constraint for PV cells/modules and CPV cells
- Electrical modeling for PLECS and/or PSIM software
Smart-grid plateform
- optimize energy and economic management of microgrids by developing control strategies, including new uses such as self-consumption, electric vehicles and storage.
- Short-term Solar Forecasting
- Electric Power Load forecasting
- Microgrid Modelling
- Electric Vehicle Modelling
- Energy and Economic Optimization
Nexeya, Engie-Green
CISE - Electromechatronic Systems Research Centre
T
Portugal
CISE, Department of Electromechanical Engineering, University of Beira Interior, Calçada Fonte do Lameiro, 6201-001 Covilhã, Portugal
Antonio J. Marques Cardoso
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University of Beira Interior
Electric Grids
Electrical Machines
Power Electronics
Renewable Energies
Reliability
Energy Efficiency
The general objectives of CISE are focused on the areas of: fault diagnosis; fault tolerance; reliability; energy efficiency; asset management; control, design and characterisation of electrical machines, power electronics, and electric grids.
CISE comprises four dedicated research facilities, the Electromechatronic Systems Laboratory (LSE), the Laboratory of Electric Energy Systems (LSEE), the Laboratory of Electromechatronic Systems Modelling (LESM), and the Guarda International Research Station on Renewable Energies (GIRS-RES). LSE is equipped for simulation studies and experimental tests in some of the research areas of the electromechatronic systems domain. At LSEE the research work is focused on fault detection and diagnostics of transmission and distribution network components and power systems protection devices. LESM facilities provide the tools required to the development of research activities aiming the theoretical and computational modelling of electromechatronic systems.
The research activities are complemented by GIRS-RES, which is especially dedicated to the renewable energies study. This facility provides, among others, the appropriate conditions for the installation of bulky equipment, both indoor and outdoor.
40
Public R&D Unit
Portuguese Government (FCT), European Regional Development Fund (ERDF)
KSB, WEG, Reel, Yaskawa, Pegop.
IREC Institut de Recerca en Energia de Catalunya
ES51005
T
Spain
Jardins de les Dones de Negre 1, Planta +2 08930 Sant Adrià de Besòs (Barcelona)
Manel Sanmartí
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+34 933 562 615
UB Universitat de Barcelona
energy management
simulation
microgrid
measurement technologies
IREC Energy Smartlab has unique testing and emulation equipment and infrastructures, offers two types of services;
Smart Grids and micro networking testing platform- Platform for the development of electrical equipment or systems for smart grids and micro networks - Validation platform
IREC’s Electrical Engineering department has a laboratory called IREC Energy Smartlab. It has unique testing and emulation infrastructures and equipment, since it offers a micronet with great flexibility, modularity and configurability, to adapt to any need. The laboratory can be seen in the following video: https://vimeo.com/111393514
The micro-network of IREC Energy Smartlab is a low voltage 200kVA installation consisting of several configurable units that includes generation, storage and consumption of various kinds.
It is a platform at laboratory level, the aim of which is to investigate the challenges and develop all technologies and tools related to distribution networks, integration of renewables, electric vehicle, management and control, and micro-nets; such as:
SGEVL PORTO INESC
PT11001
T
Portugal
João Abel Peças Lopes (INESC Porto)
The SGEVL constitutes a physical space integrating systems and equipment designed to support the development and testing of solutions and pre-industrial prototypes, promoting active and intelligent management of electric grids, in scenarios with progressive integration of distributed energy resource
The Laboratory of Smart Grids and Electric Vehicles, which was a result of project REIVE, constitutes a cutting edge and unique technological infrastructure to identify, specify, develop and test innovative solutions to actively and intelligently manage electric power grids.
This infrastructure is intended to support the necessary developments for the new energy paradigm, characterized by a higher use of distributed renewable energy sources, in a framework of increasing demand-side management, increasing energy efficiency using a systemic connection between the generation and demand dynamics. This project aims promote the creation of qualified manpower in the North region, based on the technological development and in the improvement of the efficiency of the industrialprocesses.
The purpose was to attain a progressive technical and commercial integration of microgeneration systems and electric vehicles (EV), without having to reinforce the grids, and simultaneously maximising the integration of renewable sources of energy in the
NZEB_LAB
PT17008
T
Portugal
Helder Jose Perdigão Gonçalves (LNEG)
new buildings concepts
solar thermal
solar energy intergation
The Research Infrastructure on Integration of Solar Energy Systems (NZEB_LAB) is a set of Portuguese Research facilities performing Research, Technical activities andService in all aspects related to the integration of Solar Energy in Buildings both existing and new. From the strategic and applied R
Through the research developed by NZEB_LAB, the RI strategy aims to develop and promote optimal pathways for achieving zero energy buildings standards, widespread adoption at national level by 2020, of optimized NZEB energy design and operation concepts suited to Portuguese climatic conditions and construction practices, in association with generation of nearly zero energy buildings prepared through their flexibility to respond to user’s needs and to become active contributors of energy production in the neighborhoods, districts and city context);
c) Technology transfer and input to national policy and industry, preparation of swift market implementation, influence relevant EU and national standards, building codes, directives and strategic plans.
SOLAR XXXL ; Test rooms -BIPV system (Building Integrated Photovolatic) -BIPV-PCM system (Building Integrated Photovoltaic with thermal storage Phase Change Materials). - Ground cooling system
LES ; Test bench for solar liquid heating collectors accordin
INIESC
PT17006
T
Portugal
Universidade de Évora - Cátedra Energias Renováveis
Palácio Vimioso | Largo Marquês de Marialva
Ap.94
7002-554 Évora
Manuel Collares Pereira
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+351 266 706 581
solar concentration
therma conversion
solar energy srorage
solar fuels
INIESC offers a wide variety,of services, such as the product development; engineering consultancy; prototype testing; materials characterization and studies; solar fuels production and molten salt testing facility.INIESC is focused on thermal conversion of solar energy at medium/high temperatures,
INIESC integrates two institutions: the University of Évora (UEvora) and the National Laboratory for Energy and Geology (LNEG)-comprising in their respective Solar Energy units the most significant expertise and infrastructures available in Portugal in this field; it is likely and desirable that others will join in the future.
Integrating the most prominent European R&D initiatives in the management of these infrastructures, the establishment of INIESC enables an ideal framework for the activities already in progress by both partners at computational (modeling and system simulation), laboratorial (materials and solar fuels), ...
infrastructural (solar concentrators testing bench, solar concentrator collector fields with molten salts as HTF and heat storage fluid, technological development of line-focus Fresnel and other concepts) and capacity building (full academic offer) levels
around 30
IK4-CIDETEC
ES22002
T
Spain
Gipuzkoa Science and Technology Park
Pº Miramon / Miramon Pasealekua, 196
20014 Donostia - San Sebastián
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34 943 309 022
Ion Lithium Batteries
engineering of packs
Electrode
Flow batteries,
fuel cells
supercapacitors
CIDETEC is an organization for applied research that integrates three international reference institutes in the fields of energy storage, surface engineering and nanomedicine.Experts through the whole value chain -From materials to cell - Testing & characterization
- From cells to packs
General technological and social challenges of battery storage technology:
• Coste
• Density of Energy
• Safety and sustainability
Capacities; Our capabilities throughout the value chain:
• Advanced materials and materials
• Electrode formulation and scaling
• Manufacture and prototyping
• Modules and packs
• Modeling and simulation
Scope; A technological offer at three levels:
• Basic research oriented "New concepts for specific challenges".
• Technological development "Giving shape and viability".
• Transfer to industry "Adapting to customer needs".
Specialization; A technological offer at three levels:
• Ion Lithium Batteries
• Advanced and next generation battery technology
• Other energy technologies Flow batteries, fuel cells, supercapacitors.
Electrode manufacturing room for electrodes
• Preparation of electrode inks
• Deposition or application of continuous inks (in aqueous base and organic solvents) calandrado
SERVICES OFFERED BY
• Validation of materials services
• Validation of Ion Li
180 (45% PhD)
13.1M€
IK4-IKERLAN Mondragon
ES22001
T
Spain
Paseo de Arizmendiarreta, 2 20500 Mondragón (Guipúzcoa)
Francisco J. Blanco Barro
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+34 943217400
MONDRAGON Company and we are connected to IK4 Research Alliance.
Electronic power
power converters
control
storage technologies,
energy management
machines
To solve the challenges of companies with development of efficient solutions for the integration, control and storage of energy is the reason for living of the Energy and Power Electronics Unit. Specialised in storage technologies, energy management, power electronics and electrical machines
The development of efficient solutions for the integration, control and storage of energy is the reason for living of the Energy and Power Electronics Unit. We are specialised in storage technologies, energy management, power electronics and electrical machines for e-mobility (vehicles, railway transport, aeronautics, elevators....) and stationary applications (renewable energy, electrical grids...). These applications are always oriented to obtain solutions energetically more efficient, more reliable, more compact and lower cost.
Electricalmagnetism ans electrical Machins
Integral design and devlpt of: - Electrical machines and drives - control strategies- Static and dynamic contactless charging systems - Induction heating applications - Inductance and transformers - ../..
Custom design tools _ Simulation tools used: Flux 2D/3D, Maxwell, Matlab/Simulink, PLECS, MotorCAD - Development of real-scale prototypes in railway traction, aeronautics, lifting, renewable energies, industrial heating, household appliances applications,
15Phd, 22 Ingeneers Laboratorio de Almacenamiento Eléctrico
ABC ACCIONA ENERGIA AIRBUS D&S AMOPACK AMPO BAHÍA de BIZKAIA GAS BATZS BETSAIDE BEXEN CEGASA PORTABLE ENERGY CETEST CIKAUTXO CONATEC COPRECI DORLET ERREKA FAGOR ARRASATE FAGOR AUTOMATIONFAGOR EDERLAN FAGOR ELECTRÓNICA FAGOR INDUSTRIAL GENERAL ELECTRIC ..
LNF (Laboratorio Nacional de Fusión). CIEMAT
ES30001
T
Spain
Av. Complutense 40
28040 Madrid
Spain
Joaquin Sanchez
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+34 913466387
Fusion Science and Technology
Fusion Plasmas
Materials for Fusion
TJ-II stellarator
The main goal of the plasma science branch of the LNF is the development of the “stellarator” concept. This has been tackled through the scientific exploitation of the TJ-II stellarator device, located at Ciemat, within the framework of the European Fusion Program.
In the field of fusion technology,
Scientific and technical research at the LNF, on a European and international level, is based on two main activities: on the one hand, the study of high temperature confined plasmas in the TJ-II stellarator and other international devices, and on the other, the development of technology needed to construct and operate fusion reactors: materials, tritium production, energy extraction, etc. The plasma research activities are organized in four main technical units: TJ-II Operations and Experimental Physics Divisions, and Engineering and Plasma Theory units. The Fusion Technology Division, supported by the Engineering unit mentioned above, carries out the technology activity.
Moreover, the LNF leads the Spanish participation in the construction of ITER and the European fusion programme.
As regards the high temperature plasma research, the main facility is the TJ-II stellarator (major radius 1.5 m, minor radius 0.2 m, magnetic field 1 T, plasma volume 1 m3) and its associated systems:
-ECRH (Electron Cyclotron Resonance Heating) system
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CIEMAT, which is a public research and development center, depending on the Spanish Ministry of Science, Innovation and Universities.
The Director of LNF is member of the CIEMAT directory, chaired by the CIEMAT'S Director General.
Funding of LNF comes essentially form public sources (2016 data) Baseline CIEMAT funding (Spanish Government) is 7.6 M€ (3.6 M€ correspond to salaries of the permanent employees and 4 M€ overhead (buildings, central services, electricity, communications,
Spanish Government: 7600 k€ External sources: 7230 k€
Telstar, JEMA, ENGAGE consortium, Elytt Energy Iberdrola Iberdrola/Elytt/ASG consortium, TECNATOM , ,Energhia consortium, IDOM, INEUSTAR. ENSA, SGENIA,INDRA Empresarios Agrupados Internacional (Madrid) Metallied Power Solutions (Guipúzcoa) INDRA Sis
Renewable Energies Chair – University of Évora
T
Portugal
Palácio Vimioso, Largo do Marquês de Marialva 7000-809 Évora, Portugal
Manuel Collares Pereira
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0351 266 706 581
University of Évora
Solar Energy
Concentrated Solar Power
Solar Photovoltaics
Energy Storage
Energy Management
The Renewable Energies Chair was created in 2010 and it is now also the INIESC – National Research Infrastructure in Solar Energy Concentration. Focus its activity on Concentrating Solar Power, developing and testing new technologies to capture and convert solar radiation into heat (for environment
Innovative (patented) concepts of Etendue Matched Concentrators of Linear Fresnel Reflector concept
Development of stationary or quasi-stationary Compound Parabolic Concentrator for medium temperature applications and for soar thermal electricity
R&D in solar concentrated driven systems modeling (e.g. for combined heat and power production end industrial process heat).
Solar Thermal energy storage (solid storage and molten salts storage)
BIPV (with PV electricity stored in VRB- Vanadium Redox batteries and lithium-ion batteries) with a special concern for the engineering of the interface between PV power production and buildings or other applications
Materials related research and processes in particular dust control deposition in mirrors and covers
Services Provided:
• Product development
• Engineering consultancy
• Solar Resource data and data forecasting
• Optical characterization of different collector components
• Prototype testing
• Materials characterization and durability
• Solar fuels
15
Public Research
University of Évora, LNEG
Not applicable
SECIL -Companhia Geral de Cal e Cimento, SA (Portugal) MCG Metalúrgica, SA (Portugal) ELAIA - Investimentos SA (Portugal) EDP/EdPi (Portugal) EFACEC (Portugal) ISQ (Portugal) CapWatt- Brainpower (Grupo Sonae) (Portugal) Enercoutim (Portugal) Solar Balance
Solar Oven Test Facilities
PT18002
T
Portugal
Palácio do Vimioso
Largo Marquês de Marialva, Apart. 94
7000 - 809 Évora
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266 740 800
Solar Oven
Thermal Performance
Solar Oven Standarization
Testing
Solar Cooking
Solar Oven testing and characterization
Testing and characterization of solar ovens. Thermal performance analysis.
Development of new standards.
Solar Oven modelation
Solar Ovens
Thermocouples
Data acquisition system
Ambient temperature sensor
Wind speed sensor
pyranometer
1
Private Association, ONG
Universidade de Évora
Adene
Areanatejo
ISQ
Enercoutim
Raul César Ferreira, S.A.
Capwatt - Brainpower, S.A.
Inegi
EDP Inovação
Efacec
TUV
Energyin
Credite, S.A.
SunOk, Lda
Balanço Solar
Promanec
Universidade de Évora Adene Areanatejo ISQ Enercoutim Raul César Ferreira, S.A. Capwatt - Brainpower, S.A. Inegi EDP Inovação Efacec TUV Energyin Credite, S.A. SunOk, Lda
2015 – 60 k€ 2016 – 24k€ 2017 – 33k€
Promanec
DNI Network
PT18001
T
Portugal
Palácio do Vimioso
Largo Marquês de Marialva, Apart. 94
7000 - 809 Évora
Manuel Collares Pereira
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266 740 800
DNI
Solar Radiation
Solar Instrumentation
Calibration
Assessment
Measurements
DNI assessment
The main objective is to assess the annual DNI availability and its interannual variability in Southern Portugal to identify the best places for CPV and STE applications
Solar radiation Instrumentation such as:
Pyranometer, Pyrheliometer, Solar Tracker, Sun Sensor

Meteorological Instrumentation:
2d and 3d anemometer, barometers, ambient temperature and relative humidity

Data acquisition:
Data logging systems
1
Private Association, ONG
Universidade de Évora
Adene
Areanatejo
ISQ
Enercoutim
Raul César Ferreira, S.A.
Capwatt - Brainpower, S.A.
Inegi
EDP Inovação
Efacec
TUV
Energyin
Credite, S.A.
SunOk, Lda
Balanço Solar
Promanec
Universidade de Évora Adene Areanatejo ISQ Enercoutim Raul César Ferreira, S.A. Capwatt - Brainpower, S.A. Inegi EDP Inovação Efacec TUV Energyin Credite, S.A. SunOk, Lda
2015 – 60 k€ 2016 – 24k€ 2017 – 33k€
Promanec
PAC AERO Pile A Combustible dans l’AEROnautique - LAPLACE TOULOUSE
FR62003
T
118, route de Narbonne
31062 Toulouse cedex 9

Tél : 33 (0)5 61 55 67 97
Fax : 33 (0)5 61 55 64 5
Turpin Christophe
LAPLACE
From the point of view of the scientific objectives, this tool aims at the experimental study of the potentialities of the technologies hydrogenate H2 (fuel cells, electrolysers of water) by looking for a synergy between the aeronautical micro-electricity networks and those ground.
In an aeronautical context, the PACAERO project consists, on the material plan, in spreading (surface and way of tests) the platform H2 introduced in 2011 by the LAPLACE. Besides the LAPLACE, three other laboratories are involved from now on on this platform: the CIRIMAT, the LGC and the IMFT
SEIL IMDEA Smart Energy Integration Lab
ES30002
T
Spain
Avenida Ramon de la Sagra 3
Parque tecnologico de Mostoles
E-28935 Mostoles, Madrid, Spain
IMDEA
The SEIL platform allows analysis, development and testing of realistic scenarios for energy integration in both AC and DC networks and also operation of distribution power networks, islanded networks and micro grids. The results obtained are more reliable and accurate that, any computer based simul
The SEIL activities
- Simulation of electrical grids
- Control strategies
- Energy management
- Electrical vehicle
- Integration of renewable resources
- Power electronic applications
- Electronic systems prototyping

Services; Emulationof power networks in operation – implementation of energy management scenaris – Power integration of generation systems – Energy efficiency studies – Power electronics design and control
Total power 210 kVA Triphase systems
Power electronics 4x15 Kva AC/DC & 2x75 KvA AC/DC Converter Configuration as AC/DC/AC 1x9 kW DC/DC converter
Battery ; Energy 47,5 kwh – Li-ion cells Bat. Managt. & protect. syst.
Configurable Loads 30 kw three
PSA (Plataforma Solar de Almería) - CIEMAT
ES61001
T
Spain
Carretera a Senés, km5
Tabernas
04200 - Almería
SPAIN
Dr. Julián Blanco Gálvez
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PSA is a Spanish public R+D centre owned by CIEMAT (www.ciemat.es)
Solar Energy
Solar Concentration
Solar Photochemistry
Solar Desalination
Solar Thermal Elecricity (STE)
Concentrating Solar Power (CSP)
Implementation of a sustainable clean world energy supply; Promote the market introduction of solar thermal technologies and those derived from solar chemical processes; devlpt of a competitive solar thermal export industry; Strengthen cost-reducing and provide scientific&technical support to indust
Development of new components for concentrating solar systems (receivers, concentrators, control systems, etc.), with better price ratio; Development of new experimental capabilities and simulation tools for characterization, analysis and diagnosis (optical, thermal, etc.) of this type of solar systems; Promotion of innovative actions related to concentrating solar technologies, pathing the way to technological improvements in the mid and long; Qualification of new components and training services, testing of new thermal storage materials for latent and sensible heat, Evaluation and development of innovative concepts for water desalination systems; Devlpt and testing of solar systems for water disinfection and detoxification water; Development of new standards
The main PSA test facilities are:
- CESA-1 and SSPS-CRS central receiver systems, 7 and 2.7 MWth respectively
- DISS 1.8-MWth test loop, an excellent experimental system for two-phase flow and direct steam generation in parabolic trough collectors
-
46 people (staff) + 44 people subcontracted for O&M
Spanish R&D center owned by CIEMAT, so that the legal representative of PSA is the Director General of CIEMAT (www.ciemat.es)
The PSA is a public R&D center and its Director directly depends on the Director of the Energy Department of CIEMAT
Spanish Government (55%) and own incomes from services and participation in R&D projects (45%)
2015: 5.288.594 € 2016: 6.690.660 € 2017: 11.284.462 €
At present PSA has links with most of the major industrial players involved in the market of concentrating solar thermal systems and applications (RIOGLASS, SENER, ACCIONA, ACS-COBRA, IDOM, ABENGOA, …) and it also collaborates with the Spanish and Europea
PMLab IMDEA
ES30004
T
Spain
Avenida Ramon de la Sagra 3
Parque tecnologico de Mostoles
E-28935 Mostoles, Madrid, Spain
IMDEA
Pilot Plant for photosynthetic microorganism cultivation in photo bioreactors, especially for microalgae and cyanobacteria. The pilot plant includes two types of bioreactors; bubbled columns (13/ 1m3) and raceways (2/ 1m3), designed to be highly versatile and flexible
Scale up of microalgae and cyanobacteria production under control conditions
Cultivation of photosynthetic microorganisms at optimal conditions (media, composition, illumination, CO…)
Isolation and cell wall characterizations
Biofuels production bioethanol and biogas
Biomass chemical characterization
Nutrient recovery from liquid effluents; biomedication by means of photosynthetic microorganism nutrient uptake
Population dynamics of the different microalgae and cyanobacteria strains developed under different operationzl conditions applied to the photobioreacrtors
. feeding organic loading rate
. Changes in temperature
. pH changes
. Air and CO2 supply
. Illumination
. Mixing
Inoculation zonz:
Low volume inocula; illuminated metallic shelves for different bottle sizes
Pre-inoculum; illuminated bubbled column of 0.1 m3,
Preparation of cultivation media2 plastic tanks 150l agitator – Ultraviolet to avoid bacterial contamin
PILOT PLANT – IMDEA Pyrolisys & HBO
ES30006
T
Spain
Avenida Ramon de la Sagra 3
Parque tecnologico de Mostoles
E-28935 Mostoles, Madrid, Spain
Pilot plant for for the production and development of advanced liquid biofuels from lignocellulosic biomass. Txo main sections; pyrolysis and HDO which are able to work independently or I, series.
The pyrolysis and HBO pilot plant is fully automated and configured to be capable of functioning in any of its operation modes; thermal/catalytic pyrolysis of biomass, HBO processing of any kind of oil and even the HDO treatment of the bo-oil generated in situ by the pyrolysis reactor.
Services:
Preparation and characterization of any kind of biomass.
Thermal/catalytic pyrolysis of biomass at steady state operation conditions for prolonged periods of time by means of this double-hopper biomass feeding system
HBO of bio-oil at steady state operating conditions with a continuous gas/liquid separation system and gas product continuously analyzed.
Studes of the catalytic activity of any catalyst in HDO process and assessment of their long term stability
Max reactor temp °c Pyr700 HDO 550
Max pressure (atm) Pyr 1 HDO 50
Processing capacity Pyr 1,5 kg/h HDO 1,5 L/h
Gas max flow rate (L/h) Pyr N 200, HDO H 5
Max pre-heaters temp °C Pyr 400 HDO 400
Max cyclones temp°C Pyr 400
Biomass parti
KIRAN-42 IMDEA High-Flux Solar Simulator
ES30005
T
Spain
Avenida Ramon de la Sagra 3
Parque tecnologico de Mostoles
E-28935 Mostoles, Madrid, Spain
IMDEA
Is an experimental aimed at conducting high flux/ high temperature solar thermal, PV and thermochemical R&D. Supplying high power density beams like commonly used in concentered solar energy environments. The facility includes two enclosures which the test beds and high flux solar simulator.
Mains applications; - Solar concentration optics – Solar receivers and reactors – Advanced thermal fluids for high trmperature applications – High temperature energy storage(thermochemical, latent and sensible heat) – High flux/high temperature characterization techniques. (Irradiance CCD and CMOS cameras, gardon-type radiometers – Contact and non-contact temperature measurement.
Services; Thermo-chemical tests under high-flux and/or high temperature environments.
Solar and thermochemical assessment under high temperature
Materials durability – Thermal treatments of materials
Syntheses of nanomaterials or high –temperature materials
General specification; total electric power 42 kWe –total available radiation power 14kW – Radiation peak flux 3.6 MW/m; radiation flux density 2.7 MW/m at 140 A rated current
Lamps: 7 Xenon short-arc lamps – Electrical power per lamp 6 kW (35V. 170 A)
ISOM -UPM Institute of Optoelectronic Systems and MicrotechnologySOM UPM
ES30007
T
Spain
ISOM
E.T.S.I. de Telecomunicación de la Universidad Politécnica de Madrid.
Edificio López Araujo (Edificio C)
Avda. Complutense, número 30.
Madrid - 28040 (España)
Prof. Claudio Aroca Hernández-Ros
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°34 91 336 68 32
Polytechnical University of Madrid (UPM)
Nanotechnology
Semiconductors materials/devices
Magnetic materials/devices
Graphene
Optical /Electrical /Magnetic / Structural characterization
Processing (evaporation, plasma etching, lithography)
The goal of ISOM is to perform research in the fields of detection, processing, transmission and recording of information by means of Magnetic-, Opto- and Micro-electronics, and to transfer the results to the industry.
ISOM-UPM develops projects in the fields of optoelectronics, magnetic materials/systems and micro/nanotechnology. ISOM facilities comprise a 400m2 Clean Room, 300m2 for characterization laboratories, and 200m2 for electronics and instrumentation laboratories, providing services in technology, processing and characterization.
Molecular Beam Epitaxy (MBE),Magnetron Sputtering, UV Photolithography aligners, nanolithography (e-beam) system,CVD and PECVD, Joule and e-beam systems, RTA, RIE and ICP dry etch, Microsoldering, Characterization of Materials and Devices (XRD, SEM, AFM,
Research Staff: 35 Administrative personnel and technicians: 5
Public research
UPM, Comunidad Autónoma de Madrid, Spanish state, European Regional Development Fund
Not applicable
Huawei Technologies CO ltd. - REPSOL SA.- AFFORD -MEDLUMICS- INDRA S.A y NIT (New Infrared Technologies) - ACCIONA ENERGIA SOLAR - SIMAVE S.A - METRO MADRID S.A
Electrochemical Devices Testing Lab (EDTL)
ES30003
T
Spain
Avenida Ramon de la Sagra 3
Parque Tecnologico de Mostoles
E-28935 Mostoles, Madrid, Spain
Jesus Palma
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+34 917371120
IMDEA Energy Institute
Electrochemical Energy Storage
Battery
Supercpacitor
Performance tests
Aging tests
Accelerated tests
EDTL offers electrical characterization services of electrochemical cells and modules. The platform is specialized in non-conventional testing, performance and endurance evaluation, and accelerated ageing assessment.
Emulation of electric vehicles drive and recharge cycles
Emulation of power and energy stationary applications (peak shaving, ramp smoothing, power deferral…)
Control and performance of redox flow batteries
Control and performance of electrochemical reactors (capacitive deionization systems for water treatment)
Accelerated endurance and aging tests
Electrochemical Impedance Spectroscopy
Testing facilities
3 test channels 8 kW, 120 V / 200 A max. per channel
4 test channels 300 W, 80 V / 50 A max. per channel
16 test channels 30 W, 5 V / 6 A max. per channel
64 test channels 50 mW, 5 V / 10 mA max. per channel
1 climatic chamber
3 scientists + 2 technicians
Non-profit research foundation
Community of Madrid, EU Structural Funds
Not applicable
REPSOL, IBERDROLA, PV Hardware, GS Inima,
EURECAT Centre Tecnologic de Catalunya
ES51004
T
Spain
Avda Diagonal, 177, 08018 Barcelona Barcelonès
Xavier Lopez i Miquel Rey
Anna Pamiès Cette adresse e-mail est protégée contre les robots spammeurs. Vous devez activer le JavaScript pour la visualiser.
+34 932 381 400
IT
materials
Big data
robotic
EURECAT supplying industrial sector with advanced technology and knowledge in reponse of the innovation needs. Eurecats generates an annual turnover of 36M€ -Eurecat has facilities in Barcelona, Canet d.M. , Cerdanyola d. V., Girona, Lleida, Manresa, Mataro and Reus.
The added value: fast track innovation, eliminates expenditure in technological infrastructures and reduces risks Multidisciplinary teams dedicate to 160 applied R&D pojects of high strategic value. Expertise fields; materials, new manufacturing processes, industrial robotics, functional printing, functional textile, Big Data, audiovisual technologies, smart management, IT-security, e-health -
450 professionals
160 R & D projects
+1,000 corporate clients
73 patents
7 spin-offs
ig Data, Plastic Processing, Advanced Manufacturing, USIRP industrial robotic, Reimagine textile, Water management
CITCEA Sistemes Research – Control de la Energia i el Moviment, Instrumentacio i Istemes. Research and Technological Innovation. - UPC
ES51003
T
Spain
Avda Diagonal 647 – Planta 2 - 08028 Barcelona Barcelonès
Daniel Montesinos Miracle
Jordi Giral Guardia – Cette adresse e-mail est protégée contre les robots spammeurs. Vous devez activer le JavaScript pour la visualiser.
+34 93 401 67 27
UPC
energy renewable
enertronics
mecatronics
smart grids
simulation
hybridation
CITCEA is a technology transfer center (2001) UPC it’s specialized in responding to electrical and electronic technological challenges. It’s dedicate to create functional prototype that will serve the companies to develop a new commercial product or to solve the new technological problem.
The expertise of CITCEA lies all kind applications on energy area; enertronics, mechatronics - smart grids, wind energy, transmission, HDVC, solar energy, emulation - smart rural grid, Energies hybridation– Intelligent integration of electric vehicle – Digital control, analogical conversion, non-linear and adaptive control – Electrical machines design motors and generators
Tools and simulation programs (EMPT, Matlab, Digsilent, PSS:E, PSCAD for integration renewable generation- smart renewable with integration intermittent resources – Low and high power converters
CEMIC Centre d’Enginyeria en Micro i Nanosistemes per a Instrumentacio i Comunicacions UB
ES51002
T
Spain
Marti i Francesc 1, planta 2, 08028 Barcelona Barclones
Dr Josep Maria Lopez Villegas
Dr Esteve Juanola Feliu – Cette adresse e-mail est protégée contre les robots spammeurs. Vous devez activer le JavaScript pour la visualiser.
+34 934 037 247
UB
electronics
miniaturizing
IT
nanoplatelets
nanofibers
nano sencors
The CEMIC Center is a research and technology center that works in the fields of electronics engineering and IT. The CEMIC focuses its efforts on the development of European and national projects, it is proactive in promoting and retaining the loyalty of is industrials partners on R+D projects
A flexible and multidisciplinary team carried relevant projects; DNA electrochemical sensor, Miniaturization of a capsule endoscope, Nano sensors integrated on monolithic ceramic micro technology, Research to obtain graphen oxide nanoplatelets using carbone nanofibers, Interaction of a Dopler radar sensor in the seat of vehicle. Design and manufacture implantable antennae for biotelemetry. Detection and identification of toxic gases
Microprocessor laboratory, circuit design and texting equipment, instrumentation, control and power equipment optical instrumentation, EMC.
CD6 Centre de Desenvolupement de Sensors Instrumentcio i Sistemes UPC
ES51001
T
Spain
Rambla de Sant Nabridi, 10 08222 Terrassa Valles Occidental
Director Santiago Royo
Jaume Castellà Maymo - Cette adresse e-mail est protégée contre les robots spammeurs. Vous devez activer le JavaScript pour la visualiser.
+34 937 398 314
UPC
Optical Engineering
Photonics
Software
Mechanics
CD6 develops its activity in the field of Optical Engineering and Photonics. The center has staff with complementary specializations (Optics and Photonics, Electronics, Mechanics and Software) CD6 provides R+D solutions to almost all economics sectors (transport, automotive, health, etc.). The orien
The center has over 25years of experience in technology transfer companies. The last 10 years track record includes more than 120 projects for over 100 clients with an amount exceeding 12 M€
Spectroscopic ellipsometer, Confocal and interferometric profilometer, Optical profilometer UV-VIS-IR spectrophotometer, Laser ultrasound (LUS) testing equipment, Laser vibrometer, Hyperspectral cameras
THEMIS SOLAIRE INNOVATION
FR81001
T
France
Route de Thémis
66120
Targasonne
Gautier Pépin
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+ 33 4 68 30 46 00
CNRS Promes
Solar Energies
Concentred Solar Power
Photovoltaic
Thermodynamic, Fluid Transfert
Energy Storage (Electrical and Thermal)
BIPV
Conception and prototyping thermal and electric solar energy systems
Implementation and testing solar energy pilots on real outdoor condition
Conception & test of new energy technologies in real conditions: PV panels, CSP Pilot, Storage elements, Heliostat, PV Tracker, BIPV Technologies.
• Experimental test area (100 000m²)
• High solar irradiation environment
• Fab Lab “Sol I Lab” 300m²
• 1 CSP Tower Pilot
• 1 CPV Pilot
• 1 CSP Fresnel Direct Stream Pilot
• On ground PV Tracker Power station
• BIPV Installation
• Meteorol
6 engineers, 6 technicians
Public Administration
Not applicable
Pyrénées Orientales Department, CNRS, Occitanie Region, French state , European Regional Development Fund
Not applicable
EDF EN, ENGIE GREEN, CNIM, METEO FRANCE, SUBSOL,
CEDINT - UPM Open-IoT Solution
ES30001
T
Spain
• CeDInt-UPM, Campus de Montegancedo, Pozuelo de Alarcón, Madrid, 28223, Spain
Asunción Santamaría Galdón
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0034 91 336 45 00
Technical University of Madrid (CeDInt)
Internet of Things
Energy Efficiency Management
Outdoor Smart Lighting
Smart Buildings
Smart Greenhouses
Communication Protocol Integration (open hw, sw, standard protocols).
Monitoring and control of infrastructures (smart buildings, renewable energy, smart street lighting and greenbuilding) by means of a wireless sensor network based on 6LoWPAN protocol.
This platform’s goal is approached through the installation of a set of devices used to monitor important parameters such as temperature, humidity, luminosity, noise or power consumption. These devices are also used to modify the value of a set of parameters which manage lighting systems, HVAC systems or presence controlled systems. These functionalities are managed through a middleware and a set of applications which allow users to monitor and interact with those parameters.
For the Green Labs pilot:
• 2 BatLinks. Gateway / Central platform which provides network connection and centralized control to devices connected to it. It also contains the middleware which manages the behavior of applications and the users’ access to data and those apps
• 70 single-phase BatMeters used to monitor the energy consumption in 420 independent circuits.
• 10 BatSenses, which measure temperature, humidity and luminosity inside the greenhouse.
• 25 actuators BatDimmers which control the LED’s luminosity.
For
12 researchers (engineers and PhDs), 3 support staff (IT, maintenance and administrative).
University
Spanish Government (MEC, MINECO), European Commission Horizon 2020, CDTI, Fondo Europeo de Desarrollo Regional (FEDER
T6000, Philips Lighting, Ferrovial, Gas Natural SDG, S.A., Indra, etc.
CESP - UPVD
FR81002
T
France
Rambla de la thermodynamique, 66100 PERPIGNAN
Jean-Baptiste BEYSSAC
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+33 468556852
PROMES and Université de Perpignan Via Domitita
Solar Energy
Solar water heat
Product certifications
CESP is specialized in building issues and provide tests services for research laboratories and industrial companies in the field of solar material tests and calibration of measuring devices.
Test of solar thermal equipment in real conditions: solar thermal collectors, PV panels, ageing studies.
Calibration of measuring devices: CO2 sensors, temperature sensors.
Ageing test in climatic chamber for broad range of materials (-40 °C – 180 °C).
• Solar tracker attached to hydraulic regulation loop
• Mechanical test benchs (snow and wind)
• Climatic chamber
2
Public research
UPVD, CNRS, Perpignan Méditerranée Métropole, ADEME
CETIAT, PYRESCOM, WAGNER SOLAR, BOSCH, LI-MITHRA
PRIMES: Plateform for Research and Innovation on Mechatronics, Energy and Systems
XXXXXXX
T
France
67, Boulevard RENAUDET
65000 TARBES
Hautes-Pyrénées
FRANCE
Jose FERRAO
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+33 677 719 325
INP-ENIT, and CNRS – UPS III – INPT for LAAS, LAPLACE, CIRIMAT and IUT de Tarbes labs. and UPPA for LaTEP lab
Power Mechatronic
Power Integration
Power Electronic
Wide band gap technology and process
Reliability
Characterization
- Power Mechatronic (combination of mechanics, electronics and real-time computing)
- Experimental reliability
- Wide band gap technology and process
The objective of this innovation platform is to develop exchanges and collaborations between public research and industry around these themes :
- Electric Engineering
- Engineering and systems sciences
- Physics
- Dedicated to energy efficiency of power electronics
• Experimental building 2700m2
• Prototyping platform (micro-assembly clean room, 250 m² ISO5/ISO7))
• Realibility platform : 6 Climatic equipement; temperature, humidity and pressure testing ( combined tests)
• 10 x 80kW electrical box: voltage and c
2 engineers and administrative staff
Public Platform
Board : strategic and scientific steering comity:
- One institucional president
- Five scientific members (one per lab)
- Five industrial members (associated industrials)
- Six representative of funders
- One IRT
European Regional Development Fund, French State, Occitanie Region, Departemental council, Tarbes Metropole, BDE.
Not applicable
Alstom, Safran, DEEP Concept, Cissoïd, Boostec, Tomoadour, Cirtem, aPSI3d, ISP system…
SYNERGY
FR62001
T
France
7 avenue du colonel Roche, BP54200, 31031 TOULOUSE Cedex 04
Laurent BARY
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00 33 5 61 33 79 46
LAAS-CNRS
renewable energies
microgrid
smart energy management
living lab
Instrumented experimental building for the implementation and testing of energy management technologies (hardware and software) within a context of renewable energies and storage technologies deployment
Test of new energy technologies in real conditions: PV panels, converters, optimization algorithms, storage elements, ageing studies
• Experimental building “Living lab” 1700m2
• 6000 sensors/actuators and associated data base: https://syndream.laas.fr/
• 100kWp photovoltaic production
• Storage: Pb (900 kWh) and Li-ion (60 kWh) batteries, supercapacitors (286 Wh)
• Dedicated char
4 engineers, 2 technicians
Public research lab
Public Lab CNRS (state)
CNRS, Midi-Pyrénées Region, French state , European Regional Development Fund, Toulouse Métropole, Institut Carnot, IDEX UNITI (Université Fédérale de Toulouse)
Not applicable
TOTAL, EDF, CEA, SOLVEO, CARRE PRODUCTS, QUANTUM

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