Banca Dati PROGETTI UE





 

DETTAGLI PROGETTO  NxtHPG
(Num. 307169)


Num. Contratto:
307169

Coordinatore: UNIV. POLITECNICA VALENCIA (UPV) (Spagna)

Responsabile ENEA: CALABRESE NICOLANDREA - DUEE-SPS-ESU (CASACCIA)

Ruolo ENEA: PARTNER

Sito Web: Sito WEB non disponibile

Programma Quadro: Settimo Programma Quadro R&ST (2007-2013)

Programma UE: ENERGIA (2007-2013) - Energia

Area Tematica: Energy - saving

Tipo Progetto: CP - Progetto di collaborazione

Descrizione:

The main objective of the project is the development of several reliable, safe, high efficiency and high capacity heat pumps working with the two most promising natural refrigerants: Hydrocarbons and CO2, together with a set of improved components and auxiliary devices adequate for the efficient and safe use of the two refrigerants. The project aims to reach a higher efficiency (10-20% SPF improvement) and lower Carbon footprint (20% lower TEWI) than the current state of the art HFCs/HFOs or Sorption heat pumps. The costs shall be very similar or slightly higher than the latter systems (10%). The project will also focus on the development of an efficient capacity modulation in order to enhance the integration capability with other renewable sources in the energy systems of Buildings and Industry. In this sense, if the project is successful, it will clearly bring a definitive step forward to overcome the barriers holding back the spread of natural refrigerants by proving that a new generation of heat pumps based on HCs and CO2 is perfectly feasible and commercially competitive. The first objective of the project is the identification of the cases in which the use of Natural refrigerants can lead to cost effective and high efficient solutions with a fast commercial exploitation. The following cases have already been identified for their potential interest: - Hydrocarbons (HCs): air or water to water heat pumps supplying hot water at (40-50?C) for heating applications as well as to produce sanitary hot water at 60?C. - CO2: heat pump of high capacity to produce sanitary hot water at 60?C directly from city water (10-15?C). Designs with higher temperatures in the range 70-90?C should be also explored. The project involves 6 key industrial partners (component manufacturers and heat pump manufacturers) who will strongly cooperate with the RTD partners in order to achieve the targeted goals as well as to evaluate the necessary costs and measures to successfully bring the developed technology to the market.


Attività svolta da ENEA:

L'ENEA svolgerà attività nello sviluppo della pompa di calore a CO2 in tutti i suoi componenti e la campagna di sperimentazione in campo; partecipa attivamente in tutti i workpackage tranne il WP4 (hp prototype construction) e WP11 (gestione).


Note:


Posizione:
1238

Codice Atto:
0EG34

Atto di approvazione ENEA:
493/2012/COMM

Unità alla stipula:
UTTEI-TERM

Costo eleggibile del Progetto: 3.821.985,00

Contributo al Progetto: 2.656.427,00



Costo eleggibile per ENEA: 384.400,00

Contributo ad ENEA: 295.500,00

Anno di stipula:
2012

Durata in mesi:
48

Data di inizio:
01-12-2012

Data di scadenza:
30-11-2016


Indice                               Costo Tot. Contr. UE
               
0 EUROPEAN HEAT PUMP ASSOCIATION Associazioni Belgio
1 DANFOSS COMMERCIAL COMPRESSORS SA Industrie Francia
2 ENEA Istituti di ricerca Italia PARTNER
3 ENEX SRL Industrie Italia
4 LU-VE SPA Industrie Italia
5 OFFICINE MARIO DORIN SPA Industrie Italia
6 UNIV. NAPOLI FEDERICO II (UNINA) Università Italia
7 UNIV. NORWEGIAN OF SCIENCE AND TECHNOLOGY (NTNU) Università Norvegia
8 CIATESA COMPANIA INDUSTRIAL DE APLICACIONES TERMICAS SA Industrie Spagna
9 UNIV. POLITECNICA VALENCIA (UPV) Università Spagna COORD
10 ALFA LAVAL CORPORATE AB Industrie Svezia
11 KTH - ROYAL INSTITUTE OF TECHNOLOGY Università Svezia
12 EPFL - ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE Università Svizzera

 Argomento  Macro Key  Keyword
Energy ENERGY SAVING Heat pumps
RTD Horizontal Topics INNOVATION, TECHNOLOGY TRANSFER INNOVATION, TECHNOLOGY TRANSFER
SCIENTIFIC RESEARCH SCIENTIFIC RESEARCH

 Indice
Co2