화학공학소재연구정보센터
검색결과 : 113건
No. Article
1 The oxidation of Fe(II) with Cu(II) in acidic sulfate solutions with air at elevated pressures
Wermink WN, Spinu D, Versteeg GF
Chemical Engineering Communications, 206(4), 454, 2019
2 Dissolution of CuS Particles with Fe(III) in Acidic Sulfate Solutions
Wermink WN, Versteeg GF
Industrial & Engineering Chemistry Research, 57(37), 12323, 2018
3 The Oxidation of Fe(II) in Acidic Sulfate Solutions with Air at Elevated Pressures. Part 1. Kinetics above 1 M H2SO4
Wermink WN, Versteeg GF
Industrial & Engineering Chemistry Research, 56(14), 3775, 2017
4 The Oxidation of Fe(II) in Acidic Sulfate Solutions with Air at Elevated Pressures. Part 2. Influence of H2SO4 and Fe(III)
Wermink WN, Versteeg GF
Industrial & Engineering Chemistry Research, 56(14), 3789, 2017
5 Combined Effect of Temperature and pK(a) on the Kinetics of Absorption of Carbon Dioxide in Aqueous Alkanolamine and Carbonate Solutions with Carbonic Anhydrase
Penders-van Elk NJMC, Oversteegen SM, Versteeg GF
Industrial & Engineering Chemistry Research, 55(38), 10044, 2016
6 Effect of pKa on the kinetics of carbon dioxide absorption in aqueous alkanolamine solutions containing carbonic anhydrase at 298 K
Penders-van Elk NJMC, Fradette S, Versteeg GF
Chemical Engineering Journal, 259, 682, 2015
7 Solubility of Carbon Dioxide in Aqueous Potassium Salts of Glycine and Taurine at Absorber and Desorber Conditions
Aldenkamp N, Huttenhuis P, Penders-van Elk N, Hamborg ES, Versteeg GF
Journal of Chemical and Engineering Data, 59(11), 3397, 2014
8 The effect of aqueous alcohols (methanol, t-butanol) and sulfolane on the dissociation constants and thermodynamic properties of alkanolamines
Ramachandran N, Hamborg ES, Versteeg GF
Fluid Phase Equilibria, 360, 36, 2013
9 Absorption and desorption mass transfer rates in chemically enhanced reactive systems. Part I: Chemical enhancement factors
Hamborg ES, Versteeg GF
Chemical Engineering Journal, 198, 555, 2012
10 Absorption and desorption mass transfer rates in chemically enhanced reactive systems. Part II: Reverse kinetic rate parameters
Hamborg ES, Versteeg GF
Chemical Engineering Journal, 198, 561, 2012