Piattaforma intelligente, Integrata e Adattativa di microCogenerazione ad Elevata Efficienza per usi residenziali
PIACE
Funded by: Ministero dello Sviluppo Economico (MSE)
Calls: Industria 2015 – Bando Efficienza Energetica
Start date: 2010-01-01 End date: 2011-12-31
Total Budget: EUR 187.113,08 INO share of the total budget: EUR 187.113,08
Scientific manager: Giuseppe Toniato and for INO is: Sansoni Paola
Organization/Institution/Company main assignee: RIELLO
Calls: Industria 2015 – Bando Efficienza Energetica
Start date: 2010-01-01 End date: 2011-12-31
Total Budget: EUR 187.113,08 INO share of the total budget: EUR 187.113,08
Scientific manager: Giuseppe Toniato and for INO is: Sansoni Paola
Organization/Institution/Company main assignee: RIELLO
other Organization/Institution/Company involved:
C.M.D. Costruzioni Motori Diesel
C.R.E.A.R.
CNR – Dipartimento Energia e Trasporti
Centro Ricerche FIAT S.C.p.A.
Dip. Ingegneria Meccanica Univ. di Trieste
Electrolux Italia
Eńa Progetti
Fondazione Politecnico di Milano
IRCA – Industria Resistenze Corazzate e Affini
Inoxveneta
Lafert
Meta System
Politecnico di Milano
Politecnico di Torino
Reway
Riello
SArdinia Renewable Energy Technologies (SA.R.E.T.)
Treviso Tecnologia
Università degli Studi di Padova
Valdadige Costruzioni
other INO’s people involved: Fontani DanielaJafrancesco DavidMercatelli LucaSani Elisa
Abstract: The research program foresees the development of a micro-cogeneration platform for the residential market dimensioned on an electric power of 1,5 kW.
The platform core is a micro-cogeneration unit that will be developed exploiting three different technologies:
· thermo-photovoltaic micro-cogeneration
· micro-cogeneration with internal combustion
· micro-cogeneration with Rankine cycle
The thermo-photovoltaic micro-cogeneration will be realised integrating a condensation boiler for residential applications with an innovative concentration system coupled to photovoltaic cells for the production of electric energy.
The micro-cogeneration with internal combustion, based on a more consolidated technology, will utilise an novel internal combustion motor of motorcycling origin and it will derive its innovative content precisely from the small electric size of the co-generator. Furthermore a three-generative option at high energetic efficiency will be developed, combining an endothermic motor to a heat pump, belonging to the vehicles field, and to an ejection system.
Finally the third technology to be developed will be represented by a micro-cogeneration with Rankine cycle, still integrated to a condensation boiler.
Every proposed technology will be characterised by a different ratio between electric efficiency and thermal efficiency.
The platform core is a micro-cogeneration unit that will be developed exploiting three different technologies:
· thermo-photovoltaic micro-cogeneration
· micro-cogeneration with internal combustion
· micro-cogeneration with Rankine cycle
The thermo-photovoltaic micro-cogeneration will be realised integrating a condensation boiler for residential applications with an innovative concentration system coupled to photovoltaic cells for the production of electric energy.
The micro-cogeneration with internal combustion, based on a more consolidated technology, will utilise an novel internal combustion motor of motorcycling origin and it will derive its innovative content precisely from the small electric size of the co-generator. Furthermore a three-generative option at high energetic efficiency will be developed, combining an endothermic motor to a heat pump, belonging to the vehicles field, and to an ejection system.
Finally the third technology to be developed will be represented by a micro-cogeneration with Rankine cycle, still integrated to a condensation boiler.
Every proposed technology will be characterised by a different ratio between electric efficiency and thermal efficiency.
INO’s Experiments/Theoretical Study correlated:
Solar Collectors Laboratory