| Issue |
| Total 10 articles [ 키워드: Hydrogen Bonding ] |
| No. | Article |
| 1 |
Korean Journal of Chemical Engineering, 39 (8), pp.2211-2216 (2022) Structure determination of clathrate hydrates formed from alcoholic guests with NH4F and H2O Kim DH, Park KH, Cha MJ, et al. |
| 2 |
Korean Journal of Chemical Engineering, 37 (1), pp.151-158 (2020) Gas hydrate formation by allyl alcohol and CH4: Spectroscopic and thermodynamic analysis Park KH, Cha MJ |
| 3 |
Korean Journal of Chemical Engineering, 34 (9), pp.2514-2518 (2017) Structure identification of binary 1-propanol+methane hydrate using neutron powder diffraction Cha MJ, Shin KC, Lee H |
| 4 |
Korean Journal of Chemical Engineering, 32 (3), pp.436-445 (2015) Characterization of high-alumina coal fly ash based silicate material and its adsorption performance on volatile organic compound elimination Yuan G, Zhang J, Zhang Y, et al. |
| 5 |
Korean Journal of Chemical Engineering, 31 (3), pp.514-521 (2014) Spectroscopic study on the intermolecular interaction of SO2 absorption in poly-ethylene glycol+H2O systems He Z, Liu J, Zhang J, et al. |
| 6 |
Korean Journal of Chemical Engineering, 29 (1), pp.103-110 (2012) Measurement and correlation of the isobaric vapor-liquid equilibrium for mixtures of alcohol+ketone systems at atmospheric pressure Seo MD, Kim YJ, Lim JS, et al. |
| 7 |
Korean Journal of Chemical Engineering, 25 (4), pp.833-837 (2008) Vapor-liquid equilibrium correlations for systems containing amines using a lattice fluid equation of state with hydrogen bonding Breitholz A, Yoo KP, Lim JS, et al. |
| 8 |
Korean Journal of Chemical Engineering, 20 (5), pp.911-915 (2003) A Multi-Fluid Nonrandom Lattice Fluid Theory for Thermodynamic Properties of Hydrogen Bonding Fluids Oh BC, Shin HY, Kim H |
| 9 |
Korean Journal of Chemical Engineering, 17 (3), pp.257-261 (2000) Rediscovering the Lattice-Fluid Theory for Phase Equilibria of Complex Mixtures Rediscovering the Lattice-Fluid Theory for Phase Equilibria of Complex Mixtures Yoo KP, Lee CS |
| 10 |
Korean Journal of Chemical Engineering, 16 (1), pp.111-117 (1999) DYE SOLUBILITY IN SUPERCRITICAL CARBON DIOXIDE. EFFECT OF HYDROGEN BONDING WITH COSOLVENTS Muthukumaran P, Gupta RB, Sung HD, et al. |
