Your search keyword '"Vadalà, M."' showing total 4 results

1. Hydrogen production via dark fermentation by bacteria colonies on porous PDMS-scaffolds.

Author

Vadalà, M., Kröll, E., Küppers, M., Lupascu, D.C., and Brunstermann, R.

Subjects

*BACTERIAL colonies, *FERRIC oxide, *HYDROGEN production, *IRON oxides, *RENEWABLE energy sources, *FERMENTATION, *BUTANOL, *WASTE minimization

Abstract

The development of biofuels and the question of finding renewable energy sources are important issues nowadays, due to the increasing shortage of other supplies. Hydrogen has gained very much attention as biofuel, as it is highly energetic and a clean energy source. A very interesting method to produce hydrogen is dark fermentation. It generates a clean energy from organic wastes with low value and at low energy requirements. The production of hydrogen and bio-hydrogen from waste and wastewaters can have a positive environmental impact in terms of creation of highly effective energy fuel and reduction of waste. Due to their nutrients, organic waste and wastewaters are suitable substrates to obtain bio-hydrogen. In this paper we investigate the behaviour and the stability of porous scaffolds containing iron oxide particles in a dark fermentation environment and explore the possibility of hosting mixed cultures of clostridia on them, aiming to an increase in hydrogen production. We address the effect of embedding hematite particles (in different concentrations) in the scaffolds, to see whether there is an increase in bio-hydrogen-production. This latter can be enhanced, if particles of various metal oxides are present, as they can increase bacterial growth and encourage the bioactivity of species that produce hydrogen. The scaffolds analysed consist of polydimethylsiloxane (PDMS) containing Fe 2 O 3 particles and were produced via the sugar template method. X-ray diffraction patterns, SEM images as well as dark fermentation tests in batch procedure are presented and discussed. Bacteria colonies could be detected after long treatment in municipal wastewater and production of biohydrogen was ascertained for all samples investigated. [Display omitted] • Porous foams made of polydimethylsiloxane were used as catalysts in dark fermentation. • Hydrogen production could be detected in porous foams containing bacteria. • Polymer foams hosting bacteria did not deteriorate during treatment in wastewater. [ABSTRACT FROM AUTHOR]

Published

2023

2. Comparative study of structural properties of trehalose water solutions by neutron diffraction, synchrotron radiation and simulation

Author

Cesaro, A, Magazù, V, Migliardo, F, Sussich, F, and Vadalà, M

Published

2004

3. Magnetic cobalt dispersions in poly(dimethylsiloxane) fluids

Author

Stevenson, J.P, Rutnakornpituk, M, Vadala, M, Esker, A.R, Charles, S.W, Wells, S, Dailey, J.P, and Riffle, J.S

Published

2001

4. Correlation between bioprotective effectiveness and dynamic properties of trehalose–water, maltose–water and sucrose–water mixtures

Author

Magazù, S., Migliardo, F., Mondelli, C., and Vadalà, M.

Subjects

*PARTICLES (Nuclear physics), *GLASS transition temperature, *THERMOPHYSICAL properties, *PHASE transitions

Abstract

Abstract: The aim of the present work is to link the bioprotective effectiveness to the dynamic properties of a class of homologous disaccharides, that is, trehalose, maltose and sucrose, and their mixtures in water. The findings obtained by elastic neutron scattering point out a harmonic–anharmonic transition for all the three disaccharide mixtures. Using a new operative definition of ‘fragility’, the different degrees of ‘strength’ of the investigated systems are determined. The links existing between the degree of fragility and the cryptoprotective action are also discussed. [Copyright &y& Elsevier]

Published

2005