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CIEMAT – Mapa de Capacidades

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Grupos de investigación:

Energía Solar Fotovoltaica-CIEMAT

Tecnología
  • Silicio Cristalino (material, células y módulos)
  • Thin Film
  • Sistemas fotovoltaicos
Cadena de Valor
  • Materiales
  • Célula
  • Módulos
  • Equipamiento - BoS
  • Aplicaciones
  • Sistemas - Plantas
  • Operación y mantenimiento (O&M)
Alineamiento con los objetivos del Set Plan
  • Set plan 1: Major advances in efficiency of established technologies (c-Si and TFs) and new concepts
  • Set plan 2: Reduction of the cost of key technologies
  • Set plan 3: Further enhancement of lifetime, quality and sustainability
  • Set plan 4: Enabling mass realisation of "(near) Zero Energy Buildings" by Building-Integrated PV (BIPV)
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Principales capacidades

  • Technology of PV devices based on deposited Si
  • Synthesis and characterization of PV thin-film materials
  • Characterisation and testing of PV Modules
  • Testing of PV plants
  • Self-Consumption & PV Building Integration Applications

Responsable/s

NombreApellidoCargoTeléfonoEmail
NievesVelaResponsable Unidad91 3466364nieves.vela@ciemat.es

Número de Investigadores: 23

Equipamiento

Software

  • Aplicación de cálculo de propiedades ópticas de láminas delgadas a partir de espectros de transmitancia y reflectancia
  • Aplicación para el control de irradiancia de un simulador solar
Fabricación

  • Wet bench for chemical treatments.
  • Laser processing and doping.
  • Sputtering DC and RF.
  • Thermal and e-Beam Evaporation.
  • Modulated Flux Deposition.
  • Plasma Enhanced CVD (PECVD) and HF-PECVD.
Caracterización

  • Test bench for semiconductor- and PV-cell testing
  • Indoor testing of PV modules: Electrical, optical and accelerated tests
  • Outdoor testing of PV modules, degradation and power-rating assessment
  • Portable laboratory for testing PV plants
  • Test bench of PV components : inverters batteries, water pumping systems and DC lighting equipment
  • Laboratory for calibration of solar irradiance sensors
Otros

Publicaciones relevantes recientes

TítuloAutor/esAño
Tailoring of microstructure and optoelectronic properties of Aluminium doped Zinc Oxide changing gun tilt. Material Science in Semiconductor Processing 27 (2017) 115-121.S. Fernández, J. Grandal, A. Trampert and F.B. Naranjo.2017
Depth-prediction method for direct laser-scribing processes Applied Surface Science 422 (2017) 111-115.D. Canteli, J.J. García-Ballesteros, C. Molpeceres, J.J. Gandía and I. Torres.2017
Cu2ZnSnS4 thin films obtained by sulfurization of evaporated Cu2SnS3 and ZnS layers: Influence of the ternary precursor features. Applied Surface Science 400, 220-226 (2017).V. Robles, C. Guillén, J.F. Trigo, J. Herrero.2017
TiO2 coatings obtained by reactive sputtering at room temperature: Physical properties as a function of the sputtering pressure and film thickness. Thin Solid Films 636, 193-199 (2017).C. Guillén, J. Herrero.2017
On the use of reference modules as irradiance sensor for monitoring and modelling rooftop PV systems. Renewable Energy 106 (2017) 186-191. http://dx.doi.org/10.1016/j.renene.2017.01.026J. Polo, W.G. Fernandez-Neira, M.C. Alonso-García.2017
Seasonal performance comparison of three grid connected photovoltaic systems based on different technologies operating under the same conditions. Solar Energy 144 (2017) 798–807. https://doi.org/10.1016/j.solener.2017.02.006Huaxin Wang, M.A. Muñoz-García , G.P. Moreda, M.C. Alonso-García,2017
Worldwide analysis of spectral factors for seven photovoltaic technologies Solar Energy 142 (2017) 194–203. doi:10.1016/j.solener.2016.12.024J.Polo, M.Alonso-Abella, J.A.Ruiz-Arias, J.L.Balenzategui2017
Optimizing photovoltaic self-consumption in office buildings Energy and Buildings 150, 71–80. https://doi.org/10.1016/j.enbuild.2017.05.073N. Martín-Chivelet, David Montero-Gómez2017

Proyectos de investigación nacionales e internacionales

TítuloPágina webAño inicio – Año fin
DEPRISACR Desarrollo de Patrones Primarios de Irradiancia Solar basados en Radiómetros Absolutos de Cavidad (ACR)2018-2020
PVCastSOIL Caracterización experimental y modelización del efecto del ensuciamiento FV correlacionado con parámetros meteorológicos2018-2020
DIGRAFEN Dispositivos de grafeno para la mejora de las energías renovables2018-2020
OXYCON-P: Transparent conductor oxides with different conductivity types applied for flexible optoelectronic devices.2016-2018
InVivo nEXTh: In Vivo Solar Technologies OM : EXperimenTal Design in Harsh climate and acceptance contexts.2016-2018
OMEGA: Medidas de calidad y no intrusivas para la evaluación y optimización energética de edificios existentes con elementos constructivos avanzados (OMEGA-CM)2015-2018
CHEETAH: Cost-reduction through material optimization and Higher Energy output of Solar PV modules – joining Europe’s Research and Development efforts in support of its PV industry2014-2017
SOLAR-ERA.NET: ERA-NET on Solar Electricity for the Implementation of the Solar Europe Industry Initiative.

Presencia en asociaciones nacionales e internacionales

  • EERA JP Photovoltaics
  • FOTOPLAT
  • ETIP-PV
  • International Energy Agency (IEA): Tasks 7, 12, 15 and 46
  • Standardisation; IEC/CENELEC/AENOR/IECRE
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