2 resultados para Steam Permeability

em AMS Tesi di Laurea - Alm@DL - Università di Bologna


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The future hydrogen demand is expected to increase, both in existing industries (including upgrading of fossil fuels or ammonia production) and in new technologies, like fuel cells. Nowadays, hydrogen is obtained predominantly by steam reforming of methane, but it is well known that hydrocarbon based routes result in environmental problems and besides the market is dependent on the availability of this finite resource which is suffering of rapid depletion. Therefore, alternative processes using renewable sources like wind, solar energy and biomass, are now being considered for the production of hydrogen. One of those alternative methods is the so-called “steam-iron process” which consists in the reduction of a metal-oxide by hydrogen-containing feedstock, like ethanol for instance, and then the reduced material is reoxidized with water to produce “clean” hydrogen (water splitting). This kind of thermochemical cycles have been studied before but currently some important facts like the development of more active catalysts, the flexibility of the feedstock (including renewable bio-alcohols) and the fact that the purification of hydrogen could be avoided, have significantly increased the interest for this research topic. With the aim of increasing the understanding of the reactions that govern the steam-iron route to produce hydrogen, it is necessary to go into the molecular level. Spectroscopic methods are an important tool to extract information that could help in the development of more efficient materials and processes. In this research, ethanol was chosen as a reducing fuel and the main goal was to study its interaction with different catalysts having similar structure (spinels), to make a correlation with the composition and the mechanism of the anaerobic oxidation of the ethanol which is the first step of the steam-iron cycle. To accomplish this, diffuse reflectance spectroscopy (DRIFTS) was used to study the surface composition of the catalysts during the adsorption of ethanol and its transformation during the temperature program. Furthermore, mass spectrometry was used to monitor the desorbed products. The set of studied materials include Cu, Co and Ni ferrites which were also characterized by means of X-ray diffraction, surface area measurements, Raman spectroscopy, and temperature programmed reduction.

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L'idrogeno è un prodotto di grande importanza per l'industria chimica ed i processi di raffineria. Il 60% dell'intera produzione di idrogeno viene dal reforming del gas naturale. L'oxy-reforming è un processo che unisce la reazione di steam reforming a quella di ossidazione parziale e che ha dimostrato di avere molti vantaggi in termini di temperature molto più basse, minor volume di vapore alimentato con conseguente minori costi energetici e tempi di contatto sul catalizzatore. Per questo processo sono stati preparati, testati e caratterizzati catalizzatori a base di ossidi misti Ce-Zr impregnati con Rh. Particolare attenzione è stata posta all'effetto sulle prestazioni catalitiche del metodo di sintesi e della natura della fase costituente il supporto. Sperimentalmente è stato osservato che il catalizzatore il cui supporto è stato ottenuto via microemulsione ha una migliore attività rispetto al coprecipitato e che la fase ottimale corrisponde ad un rapporto Ce-Zr 0,5-0,5.