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Author Arana Juve, Jan-Max |
Abstract In the context of an economy based on fossil fuels, hydrogen emerges as a promising alternative since it is a clean and energy-intensive fuel to carry out a necessary energy transition. Nowadays, the steam reforming of methane is the main hydrogen production pathway. This technique results in the production of hydrogen through the well-known water gas shift reaction. Aiming to purify the resulting hydrogen from these chemical reactions, zeolites emerge as good candidates due to their different pore sizes. Among them, the zeolite LTA seems to be one of the most promising materials for H2 purification purposes. The main goal of this thesis is to investigate the effect of several synthesis parameters on the particle size and purity of the LTA zeolite, with the aim to determine the minimum particle size keeping the LTA zeolite structure. The synthesis parameters evaluated are divided into three groups: process parameters (synthesis temperature, mixing temperature, and stirring influence), composition parameters for single trajectories (SiO2 content, Al2O3 content, Na2O content, water content, salt addition, and their combinations), and composition parameters for the combination of trajectories (SiO2 content, Al2O3 content, Na2O content, water content, and their combinations). SEM and XRD are the techniques used to characterize the samples. |
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Director Llovell Ferret, Fèlix |
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Degree IQS SE - Master’s Degree in Materials Science and Engineering |
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Date 2020-07-09
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