Gas hydrate (GH)-based desalination process have a potential as a novel unit desalination process. GHs are nonstoichiometric crystalline inclusion compounds formed at low temperature and a high pressure condition by water and a number of guest gas molecules. After formation, pure GHs are separated from the remaining concentrated seawater and they are dissociated into guest gas and pure water in a low temperature and a high pressure condition. The condition of GH formation is different depending on the type of guest gas. This is the reason why the guest gas is a key to success of GH desalination process. The salt rejection of GH based desalination process appeared 60.5-93%, post treatment process is needed to finally meet the product water quality. This study adopted reverse osmosis (RO) as a post treatment. However, the test about gas rejection by RO process have to be performed because the guest gas will be dissolved in a GH product (RO feed). In this research, removal potential of dissolved gas by RO process is performed using lab-scale RO system and GC/MS analysis. The relation between RO membrane characteristics and gas removal rate were analyzed based on the GC/MS measurement.

• 유현욱(부경대학교 토목공학과) | Hyunwook Ryu (Department of civil engineering, Pukyong National University)
• 김민석(부경대학교 토목공학과) | Minseok Kim (Department of civil engineering, Pukyong National University)
• 임준혁(부경대학교 화학공학과) | Jun-Heok Lim (Department of chemical engineering, Pukyong National University)
• 김종하(한국생산기술연구원) | Joung Ha Kim (Korea Institute of Industrial Technology)
• 이주동(한국생산기술연구원) | Ju Dong Lee (Korea Institute of Industrial Technology)
• 김수한(부경대학교 토목공학과) | Suhan Kim (Department of civil engineering, Pukyong National University) Corresponding author