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Micro grid at La Sapienza, Rome
Exeter, 9 July 2012 Micro grid at La Sapienza, Rome Sport Centre Tor di Quinto (Project co-funded by Regione Lazio) Prof. Ing. Livio de Santoli, Director of Research Centre CITERA, Sapienza University of Rome Ingg. Gianluigi Lo Basso, Fabio Fraticelli, Fabrizio Giamminuti Research Centre CITERA, Sapienza University of Rome [email protected] A - Dispenser • max 2 Vehicles • max 3 Nm3 /h B - Mixing Unity • 0% – 30% H2 vol. Blends C - Electrolyser • Alkaline (KOH) • max 1,1 Nm3 / h D - CHP (I.C.E.) • 60 kW el. • 120 kW th. Funding Sources Fund for Economical Development, Research & Innovation (L.R. 28.04.2006, n. 4, art. 182, paragraph 4, letter b, Research Centres) “Convenzione bilaterale per Interventi di Riqualificazione dei Laboratori di Ricerca” between Regione Lazio & “Sapienza” University of Rome Research program ULS_006, Joint Lab “Distributed Micro-cogeneration” Regional Grant Rate on Program Costs = 65% Experimental steps • Phase 1 – Hydromethane Cogeneration – Micro-cogeneration with Hydromethane – Cogeneration Test: efficiency and exhaust gases – Electrolyser from renewable energy • Phase 2 – Hydromethane Cars (HCNG) – Hydromethane Home Dispenser – Vehicles Test: efficiency and exhaust gases – Standards, distributors logistic, fleet management • Phase 3 – Hydrogen for light mobility – Hydrogen refueling for fuel cell extender – Light ZEV Test: efficiency, reliability, strain – Standards, distributors logistic, fleet management 20.06.2012 NGV Bologna 19.03.2012 4 4 Power Plant Concept Renewable Sources for Hydrogen Production: Water & Sun Engines Fuel: Hydrogen + Methane = Hydro Methane CHP Productions: •Electricity •Heat for Swimming Pool Energy flows diagram HEATING PLANT POWER 2 Units 350 + 350 kWth GAS Grid PV DC/ 6 kWe AC Electrical Grid ACEA 200 kWe 388,8 kW th CHP IC ENGINE THERMAL 200 kW th 120 kW th ELECTRICAL 60 kW el 5% 2Nm3 \ Heat Dissipation 1 kW th 3Nm3 ELECTR ICAL LOAD C 1Nm3 5.5 kWe H2 Car Refueling 200 kWe PRODUCTION: National Grid + CHP + Photo Voltaic UTILIZER: CUS ROMA Legenda Electrical Power Draw Electrical Power Released Thermal Power Draw Thermal Power Released Power released from renewable Components PVE H2 EE EXG 19.03.2012 Sapienza Università di Roma - CITERA TE 7 Experimental Results on CHP Hydro Methane for Sustainable Mobility Plant Upgrade: Domestic Refuelling Station … it’s possible to fill the vehicle tank as well as recharge a smart phone battery… VEHICLE EXPERIMENTAL ACTIVITY RESULTS 280 260 240 Gasoline 220 -30% 200 -40% 180 0 Metano 60 Idro-Metano 30% 80 Idro-Metano 20% 100 Idro-Metano 10% 120 20 CNG+10%H2 CO2 emission Avarege reduction values: CNG+30%H2 140 40 CNG CNG+20%H2 160 Benzina CO2 g/Km CO2 (AVAREGE) (g/km) from 30% to 40% less than gasoline Industrial Opportunities • Infrastructures – “household” or “light” dispensers – “public” dispensers • Networks – “methane” and “biogas” integration – methanation • Technology Development – Injection systems – Control and setting systems • Educational – Green economy professionals (engineers, consultants, green economics, architects) 20.06.2012 NGV Bologna Sapienza Università di Roma 12 Exeter, 9 July 2012 THANK YOU FOR YOUR ATTENTION !!! [email protected] Presenting Author: Ing. G. Lo Basso [email protected]