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Akira Ozeki

Waseda University

1-104 Totsukamachi, Shinjuku-ku

tokyo, 169-8050

Japan

SCHOLARLY PAPERS

1

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246

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2

Scholarly Papers (1)

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Updated E-NRTL Model for High-Concentration MEA Aqueous Solution by Regressing Thermodynamic Experimental Data at High Temperatures

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Citation 2

Updated E-NRTL Model for High-Concentration MEA Aqueous Solution by Regressing Thermodynamic Experimental Data at High Temperatures

14th Greenhouse Gas Control Technologies Conference Melbourne 21-26 October 2018 (GHGT-14)
Number of pages: 7 Posted: 04 Apr 2019 Last Revised: 27 Oct 2020
Takao Nakagaki, Akira Ozeki and Jun Arakawa
Waseda University, Waseda University and IHI Corporation
Downloads 176 (427,552)

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PCC: Amine fundamentals, rates, thermodynamics, GHGT-14Specific heat capacity, Activity coefficient, Heat of reaction, Vapor liquid equilibrium, Experimental data regression

Updated E-NRTL Model for High-concentration MEA Aqueous Solution by Regressing Thermodynamic Experimental Data at High Temperatures

Int. J. of Greenhouse Gas Control. Takao Nakagaki, Hirotaka Isogai, Hiroshi Sato, Jun Arakawa(IHI Corporation), "Updated e-NRTL model for high-concentration MEA aqueous solution by regressing thermodynamic experimental data at high temperatures", Volme 82, Mar. 2019, Pages 117-126.
Number of pages: 7 Posted: 24 Jun 2024
Takao Nakagaki, Akira Ozeki, Hiroshi Sato and Jun Arakawa
Waseda University, Waseda University, IHI Corporation and IHI Corporation
Downloads 70 (887,392)
Citation 2

Abstract:

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Specific heat capacity, Activity coefficient, Heat of reaction, Vapor liquid equilibrium, Experimental data regression