In our recent studies, absorption of H₂S into the aqueous Fe₂(SO₄)₃and FeCl₃, solutions with various values of ionic strength and pH was investigated in an agitated vessel with a flat interface. The experimental results for both systems reve...
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https://www.riss.kr/link?id=A3328817
Asai, Satoru (Department of Chemical Engineering Osaka Prefecture University) ; Nakamura, Hidemi (Department of Chemical Engineering Osaka Prefecture University) ; Konishi, Yasuhiro (Department of Chemical Engineering Osaka Prefecture University)
1997
English
570.000
SCIE,SCOPUS,KCI등재
학술저널
307-311(5쪽)
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다운로드다국어 초록 (Multilingual Abstract)
In our recent studies, absorption of H₂S into the aqueous Fe₂(SO₄)₃and FeCl₃, solutions with various values of ionic strength and pH was investigated in an agitated vessel with a flat interface. The experimental results for both systems reve...
In our recent studies, absorption of H₂S into the aqueous Fe₂(SO₄)₃and FeCl₃, solutions with various values of ionic strength and pH was investigated in an agitated vessel with a flat interface. The experimental results for both systems revealed that the species which reacts with H₂S is FeOH^(2+). The absorption rates were explained by the theory of gas absorption with an irreversible (1, 1)-th order reaction between H₂S and FeOH^(2+). The reaction rate constants were independent of the ionic strength of the solution and correlated as a function of temperature. In this paper, kinetics and mechanism of these absorption reactions are reviewed and the identity for both systems is emphasized.
ANALYSIS OF PACKED DISTILLATION COLUMNS WITH A RATE - BASED MODEL
OPTIMIZATION OF FRACTIONATION OPERATION IN THE BENZENE-TOLUENE-XYLENE PLANT
EXTRACTION OF PROTEINS AND POLYMERS YSING REVERSE MICELLES AND PERCOLATION PROCESS