“ U se of renewable energy in the Province’s of Treviso headquarters ” Maurizio Tufaro

1. Paving the way for self – sufficient regional Energy supply based on sustainable concepts and renewable energy sources “Use of renewable energy in the Province’s of Treviso headquarters” Maurizio Tufaro Treviso www.manergyproject.eu

2. The Province of Trevisoheadquartes Energy and cool/heat to 100,000 m³ of buildings (14 buildings with a net surface of 20.000 m²) When The Province of Treviso decided to allocate and renovate an existing building complex, it was agreed that alternative sources of energy would be utilized. A biomasstecnological station (chippedwood), a 1050 m² photovoltaic plant were installed on a field, which together with the biofuel plants would be used to heat and produce energy to the buildings. And to minimize heat loss, a building automation system (BAS) was installed.

3. SPECIFICS & NETWORK The area of Province includes only one technological station for: heating/cooling production; • an energy cogeneration plant (bio-diesel) • the centre of electrical energy transformation (transformer). • a nearby area a PV plant of 260 kW power peak has been realized. • There are a district heating and a district cooling (exclusive net) in all area and for each building. • The needed heat power is generated by 2 biomass boilers (chipped wood) of 750 kW power each, and these generators can be replaced (back up) by 1 natural gas boiler of 1 MW power. • The needed cool power is generated by 2 gas chillers (water cooled) that are of 1,5 MW cool power (centrifugal compressor) and 0,9 MW cool power (screw compressor). • The chillers needed 2 cooling tower of 3 MW cool power • The net of district heating and cooling is about 5 km long. The pipes are of steel insulate with polyurethane foam in PHED scabbard. • Every building has 2 air heating/cooling units and a piping air network with air diffuser for indoor comfort • The regulations of climate conditions have made with electronic units; this tools act by web control (Ethernet plus lon-bus) and local control by digital exchange and thermostat. The digital exchange and the local thermostat are included in the home automation system of Province and regulate the level of heating, cooling and lighting, “human presence” based.

4. SPECIFICS Consumption energy data of Province: • Cipped Wood: 3500 mc / year (about 1.700 MWh / year) • Natural gas: 60.000 mc / year (about 600 MWh / year) • Electric uses: 2.300 MWh / year Production energy data of province: • Electric production (PV): 260 MWh / year • (Future) Products of cogeneration system: 2.500 MWh electric / year • and 2.300 MWh heating / year. This plant was installed (include all costs) by the ESCO who manage the building of Province. The PBT depend of ESCO’s fiscal and national found facilitation. Emissions and energy savers: • CO2 (heating): 470 Tons/year • CO2 (electric - enclosed cooling): 1046 Tons/year (40% performance of thermal machines for electrical production-National level).

5. FURTHERMORE:EPC at the PT has let to a thoroughly examination of the buildings and an action plan for technological interventions to be implemented at the schools.

6. Twoexamples on interventions Technological Innovation – Pilot Project 1 & 2 Actions that are currently being implemented, beside the school visit the 7th of March

7. Expectedbenefits Technological Innovation – Pilot Project 1 «the school A. Palladio» Expected benefits by optimization of the existing plant and installation of a photo-voltaic panel system Primary energy consumption Carbon dioxide CO2 Nitrogen oxides NOx Initial target Finaltarget

8. Expectedbenefits Technological Innovation – Pilot Project 2 «the school E. Fermi» Expected benefits changing from oil to methane gas plant and installing a geothermal plant Carbon dioxide CO2 Primary energy consumption Nitrogen oxides NOx Initial target Finaltarget

9. Questions canbe made duringourwalk on the premises

10. On behalf of the Province of Treviso Thank you for your attention! Maurizio Tufaro mtufaro@provincia.treviso.it