Servizio Comunitario di Informazione in materia di Ricerca e Sviluppo - CORDIS

FP6

RISC-RAD Sintesi della relazione

Project ID: 508842
Finanziato nell'ambito di: FP6-EURATOM-RADPROT
Paese: France

Final Report Summary - RISC-RAD (Radiosensitivity of Individuals and Susceptibility to Cancer induced by ionizing Radiations)

HYVOLUTION (please see http://www.hyvolution.nl online) had been granted in the Sixth Framework Program (FP6) on Research, Technological Development and Demonstration (RTDD) , Priority 6.1 Sustainable Energy Systems. The integrated project has started on 1 January 2006 and ended on 31 December 2010. Its aim: 'development of a blue-print for an industrial bioprocess for decentral hydrogen production from locally produced biomass' added to the number and diversity of hydrogen production routes giving greater security of supply at the local and regional level. The final target of this future biohydrogen industry would be to deliver 10-25 % coverage of the European Union (EU) demand for hydrogen, for use in power or bio-fuel production, at 10 Euro/gigajoule (GJ).

The novel approach adopted in the project was based on a combined bioprocess employing thermophilic and phototrophic bacteria, to provide the highest hydrogen production efficiency in small-scale, cost effective industries. In HYVOLUTION, 10 EU countries, Turkey, Russia and South Africa were represented providing the critical mass for realizing a breakthrough in cost-effectiveness of hydrogen production.

Hydrogen is regarded as an important energy carrier in the future according to several reports in prominent journals as e.g. Science and Scientific American. However, to make the hydrogen economy fully sustainable, renewable resources instead of fossil fuels have to be employed for hydrogen production. In HYVOLUTION, bacteria were exploited, which freely and efficiently produced pure hydrogen as a by-product during growth on biomass. This approach, which started in the Fifth Framework Programme (FP5) project BIOHYDROGEN, allowed a great reduction in CO2 emission and provided independence of fossil imports. Both topics are dominant in all global agreements on climate protection and urgent in mitigating the greenhouse effect.

HYVOLUTION was structured around in seven technical work packages (WPs). The process started with the conversion of biomass to make a suitable feedstock for the bioprocess (WP 1). In WP 2 and 3 the fermentations were optimized in terms of yield and rate of hydrogen production. Dedicated gas upgrading was developed for high efficiency at small-scale production units dealing with fluctuating gas streams (WP 4). Production costs would be reduced by system integration combining mass and energy balances (WP 5). The impact of small-scale hydrogen production plants was addressed in socio-economic analyses performed in WP 6. WP 7 addressed external as well as internal training.

The overall objective of HYVOLUTION was the development of a two-stage bioprocess and construction of prototype modules. Several sub-objectives could be distinguished as follows:
1. pretreatment technologies for optimal degradation of energy crops and bioresidues;
2. equipment for mobilisation of fermentable feedstock;
3. maximum efficiency in conversion of biomass to hydrogen;
4. reactors for thermophilic and photo-heterotrophic hydrogen production;
5. assessment of installations for optimal gas cleaning;
6. devices for monitoring and control;
7. equipment for optimal gas cleaning;
8. minimum energy demand and maximum product output;
9. increase of public awareness and societal acceptance; and
10. identification of market opportunities and future stakeholders.

Informazioni correlate

Reported by

COMMISSARIAT A L'ENERGIE ATOMIQUE
Centre d'études de Saclay
GIF-SUR-YVETTE CEDEX
France