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Vous trouverez ci-dessous les fiches de compétences des laboratoires qui ont participé à un événement Lab’InSight.

362
Fiche(s) de compétences trouvée(s)
  • Laboratoire de Chimie des Polymères | Université Libre de Bruxelles

    Stockage d'énergie : défis et avancées technologiques, Stockage d'énergie : défis et avancées technologiques

    Advanced functional materials : Chemistry of materials for applications in organic electronics including the synthesis, the chemical, physical and structural characterization. The activities concern : - Synthesis and studies of discotic liquid crystals - Synthesis and studies of rod-like or calamitic mesogens, in particular, oligothiophenes

  • Centre d'Innovation et de Recherche en Matériaux Polymères (CIRMAP) | Université de Mons

    Stockage d'énergie : défis et avancées technologiques, Stockage d'énergie : défis et avancées technologiques

    • Synthesis and characterization of new polymers and nanocomposites, surface treatment of materials (self-healing, increased
    • resistance to external pressures)
    • Design of environmentally friendly polymeric/(nano)composite materials, with the possibility to imply biodegradability.
    • Modelling and evaluation of optical and electronic properties of new polymer materials (photovoltaic applications & OLED)
    • structure and properties of polymeric interfaces

  • Research Institute for Energy | Université de Mons

    Stockage d'énergie : défis et avancées technologiques

    • Thermal Energy Storage for building applications:
    • Hot water storage tanks, underground heat storage, latent heat storage, thermochemical solar heat storage
    • Multi-technology energy production systems
    • Heat demand load shift
    • Electrical Energy Storage:
    • System integration on electrcial grids; market aspects 
    • Storage in subsurface reservoirs and interactions with surface reservoirs

  • Physique des surfaces et interfaces | Université de Mons

    Stockage d'énergie : défis et avancées technologiques, Bioproducts : from molecules to materials, Stockage d'énergie : défis et avancées technologiques, Bioproducts : from molecules to materials

    • Processing and characterization of surface wettability, friction and wear, lubrication, porous surface coating (zetametry, mounted capillary, porosimetry), roughness, adhesion and adhesives.
    • Functionalization of the surface, chemical grafting, superhydrophobicity ...
    • Modifying the geometry of surface: nanostructuring of surface (lubrication, lotus effect, self-cleaning surfaces)
    • Smart coatings (fibers, powders, ...)
    • Molecular modeling of materials and their interfacial properties

  • Molecules, Solids and Reactivity (MOST) - Theoretical, physical and structural chemistry | Université catholique de Louvain

    Stockage d'énergie : défis et avancées technologiques, Stockage d'énergie : défis et avancées technologiques

    • Metal and chemical hydrides as hydrogen (energy) storage materials, complex hydrides (borohydrides, amides)
    • Synthesis: by mechano-chemical methods (ball milling under various conditions), under high pressure in diamond anvil cells, by wet chemistry (in Ar glovebox or with Schlenk lines)
    • Crystallography: single-crystal and powder diffraction; synchrotron X-rays and neutrons

  • GEO3 - Hydreology and environmental geology | Université de Liège

    Stockage d'énergie : défis et avancées technologiques, Stockage d'énergie : défis et avancées technologiques

    • Characterization and quantitative assessment of groundwater quantity and quality and of contaminant transport in the subsurface
    • Groundwater flow and solute transport modelling
    • Groundwater flow and heat transport modelling
    • Characterization of contaminated sites
    • Study and modelling of groundwater – river interactions
    • Hydrogeological and vulnerability mapping
    • Low temperature geothermy (open systems)

  • Chemical Engineering- Energy, environment, reactors, separations | Université de Liège

    Stockage d'énergie : défis et avancées technologiques, Bioresources Engineering and Chemistry, Bioproducts : from molecules to materials, Stockage d'énergie : défis et avancées technologiques, Bioresources Engineering and Chemistry, Bioproducts : from molecules to materials

    • Prevention and treatment of industrial pollution, waste management and development of new technological solutions, in a sustainable environmental context.
    • Optimising performance and energy efficiency of these processes in order to inflict minimal harm on the environment, this latter being evaluated using life cycle assessment methodology.
    • Product-oriented-engineering: establishing relations between the whole production process, the product end-users properties and the product (including biomaterials) nano and microstructure.

  • Chemical Engineering – Nanomaterials, Catalysis, Electrochemistry | Université de Liège

    Stockage d'énergie : défis et avancées technologiques, Stockage d'énergie : défis et avancées technologiques

    • Conception, synthesis and characterization of inorganic and carbon materials, in particular synthesis of xerogels by sol-gel processes and synthesis of carbon nanotubes by CCVD processes
    • Thin films and coatings
    • Conception and development of continuous plants for the manufacture of materials and chemicals and their scaling up
    • Reaction chemical engineering. Heterogeneous catalysis and photocatalysis
    • Electrochemistry with applications in voltaic batteries and fuel cells
    • Characterization of porous materials

  • Chimie Analytique et Chimie des Interfaces (CHANI) - Electrochimie | Université Libre de Bruxelles

    Stockage d'énergie : défis et avancées technologiques, Stockage d'énergie : défis et avancées technologiques

    The research directions of the CHANI's Electrochemistry group address a series of questions related to new analytical tools and electrified interfaces providing unique opportunities to obtain innovative electrochemical routes.

  • Service d'automatique et d'analyse des systèmes (SAAS) | Université Libre de Bruxelles

    Stockage d'énergie : défis et avancées technologiques, Smart Grid : Smart Energy !, Stockage d'énergie : défis et avancées technologiques, Smart Grid : Smart Energy !

    Process condition monitoring with a view to predictive maintenance and/or fault tolerant control is one of the main research areas.  Its aim is to detect and localize slight degradations in the operation of a technical system from the data recorded on-line on the technical system.  The focus is on the determination of systematic and reliable methods that can be configured easily from available data and that provide physical insight on the source of the fault and its severity.  Numerous applications have been dealt with including the monitoring of wind turbines (based on SCADA data), of the

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