Bioenergy Systems for the Future

Francesco Dalena, degree in Chemistry with Ph.D. on “Translational medicine” at the Chemistry Department of the University of Calabria (Italy), is expert in "Chemistry of advanced materials". His research field ranges from the bioenergy sector to inorganic membrane reactors, to chemical kinetics and to the chemistry of artistic masterpiece. He is editor of various books, such as: "Hydrogen Production, Separation and Purification for Energy", 2016, IET Pub.; "Alcohol and bioalcohol: characteristic, proprieties and use", 2014, Nova Pub., “Methanol: Science and Engineering”, Elsevier Pub. Angelo Basile, a Chemical Engineer with a Ph.D. in Technical Physics, was a senior Researcher at the ITM-CNR as a responsible for the research related to both ultra-pure hydrogen production and CO2 capture using Pd-based Membrane Reactors. He is a reviewer for 165 int. journals, an editor/author of more than 50 scientific books and 140 chapters on international books on membrane science and technology; with various patens (7 Italian, 2 European, and 1 worldwide). He is a referee of 1more than 150 international scientific journals and a Member of the Editorial Board of more than 20 of them. Basile is also an associate editor of the: Int. J. Hydrogen Energy; Asia-Pacific Journal of Chemical Eng.; journal Frontiers in Membrane Science and Technology; and co-Editor-in-chief of the Int. J. Membrane Science & Technol. Claudio Rossi is full professor of Physical Chemistry at the Department of Biotechnology, Chemistry and Pharmacy of the University of Siena, coordinator of the NMR spectroscopy activity and responsible for the University of Siena of the research in the Agrifood sector. He has authored more than 200 scientific publications in qualified international journals and co-authored 2 Italian patents. Referee of numerous scientific journals in the field of Pure and Applied Chemistry. Claudio Rossi was the coordinator of six European projects funded by EU. He was the Director of the Department of Chemical and Biosystem Sciences of the University of Siena in the period 2002-2008. He was tutor of numerous students during the preparation of their PhD thesis and Master.

Biomass to bioenergy
1. Biomass pretreatment and transformation from agricultural wastes
2. Efficient transformation of non-food agricultural lignocelluloses
3. Production of bio-alcohol and bio-methane
4. Light olefins/biogasoline production from biomass
5. Bioenergy from stillage anaerobic digestion to enhance the energy balance ratio of ethanol production

Hydrogen production
6. Thermodynamic analysis of ethanol reforming for hydrogen production
7. Catalysts for conversion of synthesis gas
8. Distributed H2 production from bio-alcohols and bio-methane in conventional steam reforming units
9. H2 production from bio-alchools and bio-methane steam reforming in conventional and membrane reactors
10. Formation of hydrogen rich gas via conversion of lignocellulosic biomass and its decomposition products
11. Advantages and diadvantages of recent biomass conversion technologies compared to conventional approaches for hydrogen production

Bioenergy technology aspects/status
12. Nanocomposites for ‘‘Nano Green Energy’’ Applications
13. Integration of membrane technologies into conventional existing systems in the food industry
14. Integration of microalgae into an existing biofuel industry
15. Low-temperature fuel cell operated with bio-alcohol fuels
16. Syngas cleaning system for power generation
17. Bioenergy production from second and third generation feedstocks