Gyeol Ko scite author profile

Gyeol Ko

5Publications

83Citation Statements Received

78Citation Statements Given

How they've been cited

180

How they cite others

202

Affiliations

Ulsan National Institute of Science and Technology, Government of the Republic of Korea

Publications

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Greenhouse Gas (CHF₃) Separation by Gas Hydrate Formation

Kim

Seo

2017

ACS Sustainable Chem. Eng.

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In this study, the feasibility of gas hydrate-based greenhouse gas (CHF3) separation was investigated with a primary focus on thermodynamic, structural, and cage-filling characteristics of CHF3 + N2 hydrates. The three-phase (hydrate (H)–liquid water (LW)–vapor (V)) equilibria of CHF3 (10%, 20%, 40%, 60%, and 80%) + N2 + water systems provided the thermodynamic stability conditions of CHF3 + N2 hydrates. Powder X-ray diffraction revealed that the structure of the CHF3 + N2 hydrates was identified as sI (Pm3n) for all the CHF3 concentration ranges considered in this study. A pressure–composition diagram obtained at two different temperature conditions (279.15 and 283.15 K) demonstrated that 40% CHF3 could be enriched to 88% CHF3 by only one step of hydrate formation and that separation efficiency was higher at the lower temperature. Furthermore, Raman spectroscopy revealed that CHF3 molecules preferentially occupy large (51262) cages of the structure I (sI) hydrate during CHF3 + N2 hydrate formation. The overall experimental results clearly demonstrated that the hydrate-based separation process can offer highly concentrated CHF3 and would be more effective for recovering CHF3 from exhaust gas when it constitutes a hybrid system with existing separation methods.

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Separation efficiency and equilibrium recovery ratio of SF6 in hydrate-based greenhouse gas separation

Lee

Seo

2021

Chemical Engineering Journal

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Enclathration of CHF 3 and C 2 F 6 molecules in gas hydrates for potential application in fluorinated gas (F-gas) separation

Kim

Shin

et al. 2016

Chemical Engineering Journal

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Formation and dissociation behaviors of SF6 hydrates in the presence of a surfactant and an antifoaming agent for hydrate-based greenhouse gas (SF6) separation

Seo

2020

Chemical Engineering Journal

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Inhibition synergism of glycine (an amino acid) and [BMIM][BF4] (an ionic liquid) on the growth of CH4 hydrate

Lee

et al. 2020

Chemical Engineering Journal

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Gyeol Ko

Greenhouse Gas (CHF₃) Separation by Gas Hydrate Formation

Separation efficiency and equilibrium recovery ratio of SF6 in hydrate-based greenhouse gas separation

Enclathration of CHF 3 and C 2 F 6 molecules in gas hydrates for potential application in fluorinated gas (F-gas) separation

Formation and dissociation behaviors of SF6 hydrates in the presence of a surfactant and an antifoaming agent for hydrate-based greenhouse gas (SF6) separation

Inhibition synergism of glycine (an amino acid) and [BMIM][BF4] (an ionic liquid) on the growth of CH4 hydrate

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Resources

About

Gyeol Ko

Greenhouse Gas (CHF3) Separation by Gas Hydrate Formation

Separation efficiency and equilibrium recovery ratio of SF6 in hydrate-based greenhouse gas separation

Enclathration of CHF 3 and C 2 F 6 molecules in gas hydrates for potential application in fluorinated gas (F-gas) separation

Formation and dissociation behaviors of SF6 hydrates in the presence of a surfactant and an antifoaming agent for hydrate-based greenhouse gas (SF6) separation

Inhibition synergism of glycine (an amino acid) and [BMIM][BF4] (an ionic liquid) on the growth of CH4 hydrate

Contact Info

Product

Resources

About

Greenhouse Gas (CHF₃) Separation by Gas Hydrate Formation