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Argon gas solubility in styrene and nitrogen, oxygen and argon gas solubilities in methyl methacrylate at (293 to 313) K and at pressures up to 3.8 MPa

Dissolved oxygen is well known as an inhibitor in radical polymerization of vinyl monomer. Though the monomer solution is often saturated with argon or nitrogen to remove oxygen before polymer synthesis, there are few experimental data for the gas solubility. Thus, gas solubilities in solutions are...

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Main Authors: Lai, A. J. X., Tsuji, T., Tan, L. S., Bharath, R., Hoshina, T., Funazukuri, T.
Format: Article
Published: Springer 2021
Subjects:
T Technology (General)
Online Access:http://eprints.utm.my/id/eprint/96540/
http://dx.doi.org/10.1007/s10953-021-01101-7
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spelling my.utm.965402022-07-26T08:55:47Z http://eprints.utm.my/id/eprint/96540/ Argon gas solubility in styrene and nitrogen, oxygen and argon gas solubilities in methyl methacrylate at (293 to 313) K and at pressures up to 3.8 MPa Lai, A. J. X. Tsuji, T. Tan, L. S. Bharath, R. Hoshina, T. Funazukuri, T. T Technology (General) Dissolved oxygen is well known as an inhibitor in radical polymerization of vinyl monomer. Though the monomer solution is often saturated with argon or nitrogen to remove oxygen before polymer synthesis, there are few experimental data for the gas solubility. Thus, gas solubilities in solutions are reported for four binary systems. The solubilities of argon in styrene and nitrogen, oxygen or argon in methyl methacrylate (MMA) were measured at pressures up to 3.8 MPa, at 293, 303, 313 K. Gas solubilities at a given isotherm had linear pressure dependences, whereas Henry’s constants decreased with increasing temperature. Argon solubilities in MMA were about 1.35 times larger than those in styrene. Nitrogen and oxygen solubilities in MMA were about 1.53 and 1.35 times larger than those for styrene. Experimental data could be correlated with the Peng–Robinson equation of state to within AARDs of 0.85% for argon in styrene and 1.31%, 1.53% and 0.81% for argon, nitrogen and oxygen solubilities in MMA, respectively. The data and the correlation allow analysis not only for Henry constants but also for gas concentration in monomer solution at given temperature and pressure. Springer 2021-07 Article PeerReviewed Lai, A. J. X. and Tsuji, T. and Tan, L. S. and Bharath, R. and Hoshina, T. and Funazukuri, T. (2021) Argon gas solubility in styrene and nitrogen, oxygen and argon gas solubilities in methyl methacrylate at (293 to 313) K and at pressures up to 3.8 MPa. Journal of Solution Chemistry, 50 (7). pp. 1008-1026. ISSN 0095-9782 http://dx.doi.org/10.1007/s10953-021-01101-7 DOI: 10.1007/s10953-021-01101-7
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic T Technology (General)
spellingShingle T Technology (General)
Lai, A. J. X.
Tsuji, T.
Tan, L. S.
Bharath, R.
Hoshina, T.
Funazukuri, T.
Argon gas solubility in styrene and nitrogen, oxygen and argon gas solubilities in methyl methacrylate at (293 to 313) K and at pressures up to 3.8 MPa
description Dissolved oxygen is well known as an inhibitor in radical polymerization of vinyl monomer. Though the monomer solution is often saturated with argon or nitrogen to remove oxygen before polymer synthesis, there are few experimental data for the gas solubility. Thus, gas solubilities in solutions are reported for four binary systems. The solubilities of argon in styrene and nitrogen, oxygen or argon in methyl methacrylate (MMA) were measured at pressures up to 3.8 MPa, at 293, 303, 313 K. Gas solubilities at a given isotherm had linear pressure dependences, whereas Henry’s constants decreased with increasing temperature. Argon solubilities in MMA were about 1.35 times larger than those in styrene. Nitrogen and oxygen solubilities in MMA were about 1.53 and 1.35 times larger than those for styrene. Experimental data could be correlated with the Peng–Robinson equation of state to within AARDs of 0.85% for argon in styrene and 1.31%, 1.53% and 0.81% for argon, nitrogen and oxygen solubilities in MMA, respectively. The data and the correlation allow analysis not only for Henry constants but also for gas concentration in monomer solution at given temperature and pressure.
format Article
author Lai, A. J. X.
Tsuji, T.
Tan, L. S.
Bharath, R.
Hoshina, T.
Funazukuri, T.
author_facet Lai, A. J. X.
Tsuji, T.
Tan, L. S.
Bharath, R.
Hoshina, T.
Funazukuri, T.
author_sort Lai, A. J. X.
title Argon gas solubility in styrene and nitrogen, oxygen and argon gas solubilities in methyl methacrylate at (293 to 313) K and at pressures up to 3.8 MPa
title_short Argon gas solubility in styrene and nitrogen, oxygen and argon gas solubilities in methyl methacrylate at (293 to 313) K and at pressures up to 3.8 MPa
title_full Argon gas solubility in styrene and nitrogen, oxygen and argon gas solubilities in methyl methacrylate at (293 to 313) K and at pressures up to 3.8 MPa
title_fullStr Argon gas solubility in styrene and nitrogen, oxygen and argon gas solubilities in methyl methacrylate at (293 to 313) K and at pressures up to 3.8 MPa
title_full_unstemmed Argon gas solubility in styrene and nitrogen, oxygen and argon gas solubilities in methyl methacrylate at (293 to 313) K and at pressures up to 3.8 MPa
title_sort argon gas solubility in styrene and nitrogen, oxygen and argon gas solubilities in methyl methacrylate at (293 to 313) k and at pressures up to 3.8 mpa
publisher Springer
publishDate 2021
url http://eprints.utm.my/id/eprint/96540/
http://dx.doi.org/10.1007/s10953-021-01101-7
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score 13.211869

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