Search for dissertations about: "hydrogen production"
Showing result 21 - 25 of 373 swedish dissertations containing the words hydrogen production.
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21. Cost-Effective Pathways for Gasification-Based Production of Biofuels
Abstract : A considerable number of studies indicate that biomethane produced through gasification of lignocellulosic biomass could contribute significantly to greenhouse gas emissions reduction in the transport sector. However, the production costs are high compared to fossil-based alternatives, which has limited deployment of the technology. READ MORE
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22. Hydrogen Production by Caldicellulosiruptor species: The Organism and the Metabolism
Abstract : Hydrogen holds a great promise as an efficient and clean future energy carrier due to its high energy density and lack of pollutant generation. Anaerobic degradation of organic substrates by heterotrophic microorganisms enables the production of hydrogen from a wide spectrum of agricultural feedstock and waste products. READ MORE
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23. Biological Production of Hydrogen and Methane: Process Evaluation and Design through Modeling
Abstract : A great deal of research is being carried out on the biological production of hydrogen and methane. However, little effort has been devoted to studying the technical and economic feasibility of these processes. READ MORE
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24. Electrocatalysts for sustainable hydrogen energy : disordered and heterogeneous nanomaterials
Abstract : With the current global greenhouse gas emissions, our remaining carbon budget is depleted in only 7 years. After that, several biophysical systems are predicted to collapse such as the arctic ice, coral reefs and the permafrost, leading to potentially irreversible consequences. READ MORE
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25. Non-geological hydrogen storage for fossil-free steelmaking
Abstract : In the last half-century, global steel use has increased more than threefold and further growth is expected, particularly in developing economies. However, steelmaking is currently responsible for 7% of the global net carbon dioxide (CO2) emissions, and any substantial further optimization of existing processes that utilize fossil fuels for iron ore reduction is infeasible. READ MORE