NOO2

NOO2 - Development of an efficient oxygen elimination technology for reducing oxygen content in landfill gas for fuel quality

Coordinatore	ATEKNEA SOLUTIONS HUNGARY KFT    more  Organization address address: TETENYI UT 84-86 city: BUDAPEST postcode: 1119 contact info Titolo: Mr. Nome: Attila Cognome: Uderszky Email: send email Telefono: +36 17874024 Fax: +36 17874390
Nazionalità Coordinatore	Hungary [HU]
Totale costo	1˙437˙700 €
EC contributo	1˙073˙000 €
Programma	FP7-SME Specific Programme "Capacities": Research for the benefit of SMEs
Code Call	FP7-SME-2013
Funding Scheme	BSG-SME
Anno di inizio	2013
Periodo (anno-mese-giorno)	2013-10-01   -   2016-05-31

 Partecipanti

#	participant	country	role	EC contrib. [€]
1	ATEKNEA SOLUTIONS HUNGARY KFT  Organization address address: TETENYI UT 84-86 city: BUDAPEST postcode: 1119 contact info Titolo: Mr. Nome: Attila Cognome: Uderszky Email: send email Telefono: +36 17874024 Fax: +36 17874390	HU (BUDAPEST)	coordinator	38˙368.00
2	UTB ENVIROTEC KORNYEZETTECHNOLOGIAIZARTKORUEN MUKODO RT  Organization address address: LOMB UTCA 15 city: BUDAPEST postcode: 1139 contact info Titolo: Mr. Nome: Charandeep Singh Cognome: Bhasin Email: send email Telefono: +36 14133600 Fax: +36 1 4133601	HU (BUDAPEST)	participant	353˙751.00
3	A.R.W. - ABFALLMANAGEMENT GMBH  Organization address address: KAHRWEG 7 city: MUEHLDORF BEI FELDBACH postcode: 8330 contact info Titolo: Mr. Nome: Wolfgang Cognome: Lehner Email: send email Telefono: +36 20 952 73 47	AT (MUEHLDORF BEI FELDBACH)	participant	276˙198.00
4	ASIO spol. s r.o.  Organization address address: JIRIKOVICE 83 city: JIRIKOVICE postcode: 664 51 contact info Titolo: Mrs. Nome: Michaela Cognome: Pokorná Email: send email Telefono: +420 548 428 134	CZ (JIRIKOVICE)	participant	252˙318.00
5	BIOGASTECHNOLOGY V.B.T.S. GMBH & COKG  Organization address address: DEUTSCHER PLATZ 5 city: LEIPZIG postcode: 4103 contact info Titolo: Mr. Nome: Rafael Cognome: Salzberger Email: send email Telefono: 4934110000000 Fax: 4934110000000	DE (LEIPZIG)	participant	81˙888.00
6	UNIVERSIDAD DE CADIZ  Organization address address: CALLE ANCHA 16 city: CADIZ postcode: 11001 contact info Titolo: Dr. Nome: Manuel Cognome: Bethencourt Nuñez Email: send email Telefono: +34 956015165 Fax: +34 956015746	ES (CADIZ)	participant	42˙081.00
7	ATEKNEA SOLUTIONS CATALONIA, SA  Organization address address: CALLE VICTOR PRADERA 45 city: CORNELLA DE LLOBREGAT BARCELONA postcode: 8940 contact info Titolo: Ms. Nome: Eva Cognome: Alvarez Email: send email Telefono: +34 932049922 Fax: +34 932049866	ES (CORNELLA DE LLOBREGAT BARCELONA)	participant	28˙396.00

Mappa

 Word cloud

Esplora la "nuvola delle parole (Word Cloud) per avere un'idea di massima del progetto.

 Obiettivo del progetto (Objective)

'European policy targets to increase the utilization of renewable energy sources. Biogas is one of the possible solutions for achieving these targets. Although agriculture and waste water are the main sources of biogas, landfills, collecting municipal waste, have huge potential, too. There are about 3000 landfills operating in the EU, accepting ~100 million tons of municipal waste per year. The potential (theoretic) calorific energy content of the gas produced from such amount is ca. 24 billion kWh, equal to the energy need of ca. 2 million European households.

Despite the huge potential laying in the bio-methane content of landfill gas, only few plant targets its conversion to fuel quality. The main barrier of improved utilization lies in its specific mixture: landfill gas contains 1.5-5% oxygen as opposed to biogas produced by conventional technologies. Oxygen must be eliminated, because of the strict regulations and associated technical problems: • Corrosion issue, it reacts with other compounds of the gas such as H2S and results in high corrosive sulphuric acid. • Safety issue. Oxygen in compressed methane increases the risk of explosion, thus reducing the possibility of compressing.

Several upgrading technologies are available for the conventional biogas but these methods alone cannot eliminate oxygen. They are inefficient and poorly economical for oxygen removal. A group of European SMEs together with organizations experienced in the relevant R&D put together this ambitious NoO2 project. The proposed NoO2 technology would perfectly complete existing upgrading methods, and would make possible vacuum harvested methane rich gases, such as landfill gas, becoming available natural gas alternatives, in an economic way.

The SME partners target to expand the currently marginal market of landfill biogas upgrading technologies and expects to reach a total of 7 million € income from sales of the NoO2 technology. The RTD partners of the project will extend their expertise and knowledge portfolio by realizing the NoO2 project. In large extend, the utilization and operation of landfill gas upgrading plants will result in economical (savings in energy, expanding technology market), environmental (increased rate of renewable energy), and political (decreasing dependency on foreign energy sources) benefits for the European society.'