Hülya Aykaç Özen scite author profile

Hydrogen is the most abundant element in the universe, can be produced by water, stored easily, conversed into thermal, mechanical and electrical energy. Because of these properties, it can be considered as the energy carrier of the future. In order to use hydrogen as energy carrier, it must be separated from the gas mixture. Hydrogen separation using membrane method has the advantage over other separation methods due to its less energy intensive and environmental friendly properties. Mixed matrix membrane (MMM) has been developed so as to membrane properties become better and increase the performance of gas separation membranes. MOFs as a new fillers in MMM with high surface area and pore volume, enhance the H2 gas separation properties. In this study, MOF-5 and Co-doped MOF-5 particles were synthesized, characterized and incorporated into polyimide to investigate the effect of filler on the H2 gas permeation. Co-doped MOF-5/PI MMMs with different loading rate (5wt.%, 10wt.%, 15wt.%) were fabricated. The characterization was performed by different analysis techniques. The gas analyses results showed that permeability of H2 gas in mixed matrix membrane including MOF-5 and Co-doped MOF-5 particules were enhanced with increasing the loading rate (5wt.%, 10wt.%, 15wt.%) at room temperature and pressure of 500 kPa. Furthermore, metal doped MOFs/PI is the highest gas permeation properties compared to pure PI and MOF-5/PI.

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The importance of nanomaterials in gas separation

Öztürk

Özen

2021

Materials Today: Proceedings

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COVID-19 salgını dönemindeki kısıtlamaların sera gazı salınımına etkisi

Özen¹

2021

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The effect of COVID-19 lockdown and meteorological parameters on air pollutants in Samsun, Turkey

Özen

2022

IJGW

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