1. Université de Corse Pascal Paoli Building Integration of Renewable Energies

2. Where are you ?

3. A small university : 4 200 students 3 campus 45 nationalities on the campus 230 teachers and researchers and 130 administrative persons, engineers and technicians 25 licences, 28 Masters, IUT _ 6 DUT (Technological diploma fields) 9 professional licences 6 research projects : - Mediterranean Water, Forest Fire, Sustainable development, Culture and Identity, Natural resources, Renewable Energies More than 100 partner universities all around the World « ENERGY SYSTEMS AND RENEWABLE ENERGY »MASTER « ECOLOGICAL ENGINEERING » MASTER « RENEWABLE ENERGY » Professional licence « CIVIL ENGINEERING » Technological Diploma and Professional licence

4. Palazzu Naziunale (national palace) which is the old headquarters of the Corsican Nation from 1755 to 1768. Administrative building of the University. Campus CARAMAN with Literature, language, Art and Human Sciences Unities Law, Social, Economic and Management Sciences Campus GRIMALDI with Sciences and Technology Technological Institute Health Department Research Laboratories

5. Our Research Centre in Ajaccio Solar thermal electric power plant using solar tracking concentrators (100kWe)

6. The different research themes priorities Energy management Hybrid systems Coupling NRE / Storage What ? Why ? ISSUES Conception of new solar collectors Energy efficiency Improvement housing / tertiary Optimisation of the hybrid systems Integrating storage systems Massive integration of NRE into electric network More than 2.5 Billion people are not connected to the electric network 44 % of the population Social / Economic / Environmental Reduction of the emission greenhouse gases 25 % Buildings, 35 % Transports, 40 % Industries

7. Energy management Hybrid systems Coupling NRE / Storage ISSUES The islands energy big issue A maximun of 30 % of PV or WIND solution market integration More than 2.9 billion people are not connected to the electric network (44% of the population) A wide energy conservation site. 40% Buildings 30% Transports 30% Industries > 700 islands UE / 16 M h  10 000 islands in the world / 500 M h

8. Study and Management of energy systems using renewable sources and their integration in a socio- economical field Estimation of energy potential Integration of energy system in Buildings (thermal and/or electrical) Hybrid systems for electricity production Energy systems using renewable sources and connected to the grid Diagnostic of production system Water production by condensing atmospheric water vapour using passive radiative systems Our Research fields

9. Study and Management of energy systems using renewable sources and their integration in a socio- economical field Estimation of energy potential Integration of energy system in Buildings (thermal and/or electrical) Hybrid systems for electricity production Energy systems using renewable sources and connected to the grid Diagnostic of production system Water production by condensing atmospheric water vapour using passive radiative systems Our Research fields

10. Energy Potential Estimation  BEAM SKY DIFFUSE GROUND DIFFUSE Development of solar radiation correlations between various components of solar radiations. Statistical analysis of wind speed and of the « multi scaling » turbulence in view of a better estimation of the wind potential and of the productivity of a wind turbine pH-D Rachel Baïle Solar radiation Estimation on the territory and analysis of performances of various small PV systems connected to the grid. Estimation of the PV Productivity using several meteorological stations disseminated on all the territory taking into account the spatial variability on a small area. Collaboration CEA

11. Study and Management of energy systems using renewable sources and their integration in a socio- economical field Estimation of energy potential Integration of energy system in Buildings (thermal and/or electrical) Hybrid systems for electricity production Energy systems using renewable sources and connected to the grid Diagnostic of production system Water production by condensing atmospheric water vapour using passive radiative systems Our Research fields

12. Integration of energy systems in buildings (thermal and/or electrical) Modelling of the thermal and electrical behaviour of the PV/T Collector - with its environment (water storage, tub, …) - in low flow conditions for tank stratification to improve thermal performances - copolymer solar collector : new concept HYBRID PHOTOVOLTAIC/THERMAL SOLAR COLLECTOR PV/T solar water collector Preheating solar floor Preheating solar hot water Current-Volatge

13. patented Méditerranée Industrie Solaire & St Gobain MISFORCE  & MISTHERM  Integration of energy systems in buildings (thermal and/or electrical)

14. The solar gutter Invisible from the ground level Available in various sizes both for individual and collective habitations; Can also be used on north oriented walls (the collector being oriented south into the drainpipe);

15. Integration of energy systems in buildings (thermal and/or electrical) The solar gutter Rain water evacuation preserved Canalizations connecting the house to the collector hidden in the drainpipe evacuation. An installation includes several serial connected modules; Each module is about one meter length and around ten centimeters in width (for individual houses)

16. VOLET’AIR  AIR SHUTTER Test, modelling and optimisation of a solar air collector totally integrated in a shutter Integration of energy systems in buildings (thermal and/or electrical) The PV modules provide electricity for the air fan into the wall

17. Integration of energy systems in buildings (thermal and/or electrical) The concept of solar air shutter, patented and named volet’air ® produce low temperature heat directly in the house without any other energy supply The solar air shutter  to maintain the first functions of the shutter against intrusion; for the light concealing. Objectives :  to provide hot and dry air in view to cover a part of the heating needs and to maintain a healthy environment in principal residences occupied all the year; in secondary residences no-occupied during a long period; in isolated houses not connected to the electrical grid.

18. Integration of energy systems in buildings (thermal and/or electrical) The experimental wall

19. Integration of energy systems in buildings House demonstration with different solar systems technologies Metal Porch roof with direct flow tubes collector (vacuum ) Gutter with direct flow tubes collector (vacuum ) Solar air shutter

20. Electrical performances study : influence of the orientation, shade effect, solar radiation Comparative study of two materials (amorphous and m-SI technologies Hot air production Integration of energy systems in buildings (thermal and/or electrical) An experimental PV wall has been implemented in our laboratory. It is composed by 3 m-Si PV 1.57 kW generators (9 Suntech STP175S-24Ac with SMA Sunny Boy 2100TL) and 3 a-Si PV 0.6 kW generators (6 Mitsubishi Heavy Industries MA 100 T2 with SMA Sunny Boy SWR 700) totally equipped with a measuring system (voltage and current, frequency, solar irradiance, modules and ambient temperatures).

21. THANK YOU FOR YOUR ATTENTION …