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Research

super socks 5 cap keygen Vast quantities of methane hydrates are existing along the continental margin and permafrost regions, which are promising to meet the future energy demand. Since carbon dioxide hydrates are more stable than methane hydrates, it is possible to extract methane from methane hydrates while capture carbon dioxide in the gas hydrate reservoir. To recover methane hydrates economically and safely, it is necessary to understand the mechanisms behind the formation, decomposition and guest molecule exchanging of methane hydrates. The PhD project is mainly focusing on understanding the exchange mechanism of methane hydrates with carbon dioxide and other gas mixtures by using High Pressure Differential Scanning Calorimetry and Raman Spectroscopy at representative low temperature and elevated pressure. Furthermore, gas exchange in engineered mesoporous silica (SBA-15) will be studied to give an insight of hydrate exchanging in controlled porous structure.