The viscosity of aqueous NaCl solutions with dissolved CO2 was measured at conditions representing an underground aquifer at a depth of (1000 to 2000) m for the geological storage of CO2 (i.e., (30 to 60) oC and (10 to 20) MPa at a mass fraction of NaCl between 0 and 0.03 by using a sedimenting solid particle type viscometer with an estimated uncertainty of +-2%). On the basis of this experimental data, an empirical equation for predicting this viscosity as a function of the temperature and mole fraction of CO2 for these conditions was derived.
Description
Viscosity of Aqueous NaCl Solutions with Dissolved CO2 at (30 to 60) oC and (10 to 20) MPa - Journal of Chemical & Engineering Data (ACS Publications)
%0 Journal Article
%1 Bando2004
%A Bando, Shigeru
%A Takemura, Fumio
%A Nishio, Masahiro
%A Hihara, Eiji
%A Akai, Makoto
%D 2004
%J Journal of Chemical & Engineering Data
%K 2004 viscosity aqueous CO2 NaCl
%N 5
%P 1328-1332
%R 10.1021/je049940f
%T Viscosity of Aqueous NaCl Solutions with Dissolved CO2 at (30 to 60) oC and (10 to 20) MPa
%U http://dx.doi.org/10.1021/je049940f
%V 49
%X The viscosity of aqueous NaCl solutions with dissolved CO2 was measured at conditions representing an underground aquifer at a depth of (1000 to 2000) m for the geological storage of CO2 (i.e., (30 to 60) oC and (10 to 20) MPa at a mass fraction of NaCl between 0 and 0.03 by using a sedimenting solid particle type viscometer with an estimated uncertainty of +-2%). On the basis of this experimental data, an empirical equation for predicting this viscosity as a function of the temperature and mole fraction of CO2 for these conditions was derived.
@article{Bando2004,
abstract = { The viscosity of aqueous NaCl solutions with dissolved CO2 was measured at conditions representing an underground aquifer at a depth of (1000 to 2000) m for the geological storage of CO2 (i.e., (30 to 60) oC and (10 to 20) MPa at a mass fraction of NaCl between 0 and 0.03 by using a sedimenting solid particle type viscometer with an estimated uncertainty of +-2%). On the basis of this experimental data, an empirical equation for predicting this viscosity as a function of the temperature and mole fraction of CO2 for these conditions was derived. },
added-at = {2011-01-19T18:05:24.000+0100},
author = {Bando, Shigeru and Takemura, Fumio and Nishio, Masahiro and Hihara, Eiji and Akai, Makoto},
biburl = {https://www.bibsonomy.org/bibtex/28ba4784caae625df295cbd98cc9d0dea/thorade},
description = {Viscosity of Aqueous NaCl Solutions with Dissolved CO2 at (30 to 60) oC and (10 to 20) MPa - Journal of Chemical & Engineering Data (ACS Publications)},
doi = {10.1021/je049940f},
eprint = {http://pubs.acs.org/doi/pdf/10.1021/je049940f},
interhash = {4f83bc65cc41aaa44716487255c0ebc3},
intrahash = {8ba4784caae625df295cbd98cc9d0dea},
journal = {Journal of Chemical \& Engineering Data},
keywords = {2004 viscosity aqueous CO2 NaCl},
number = 5,
pages = {1328-1332},
timestamp = {2011-01-19T18:05:25.000+0100},
title = {Viscosity of Aqueous NaCl Solutions with Dissolved CO2 at (30 to 60) oC and (10 to 20) MPa},
url = {http://dx.doi.org/10.1021/je049940f},
volume = 49,
year = 2004
}