The impact of amino acids on methane hydrate phase boundary and formation kinetics
The thermodynamic and kinetic effects of two amino acids (valine and arginine) on methane hydrate formation was evaluated by measuring the dissociation temperature of methane hydrate in the range of 4.5�10 MPa using the T-cycle method. The kinetics of methane hydrate formation was evaluated at 7.1...
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2018
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my.utp.eprints.217892018-08-01T02:04:36Z The impact of amino acids on methane hydrate phase boundary and formation kinetics Bavoh, C.B. Nashed, O. Khan, M.S. Partoon, B. Lal, B. Sharif, A.M. The thermodynamic and kinetic effects of two amino acids (valine and arginine) on methane hydrate formation was evaluated by measuring the dissociation temperature of methane hydrate in the range of 4.5�10 MPa using the T-cycle method. The kinetics of methane hydrate formation was evaluated at 7.1 MPa and 274.15 K. The experiments were conducted at concentrations of 0.01 and 0.05 mass fraction. Both amino acids showed a slight inhibition effect on the phase boundary of methane hydrate. The predicted methane hydrate phase boundary data in the presence of amino acids was strongly correlated with the experimental data with R = 0.9996 and an AAE less than 0.15 K. However, these amino acids also showed hydrate formation rate enhancement compared to pure water. In addition, the total methane uptake at the end of the experiments was increased in the presence of these amino acids. © 2017 Elsevier Ltd Academic Press 2018 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85029215093&doi=10.1016%2fj.jct.2017.09.001&partnerID=40&md5=26af52c911b1229f5b874ad0c81780c7 Bavoh, C.B. and Nashed, O. and Khan, M.S. and Partoon, B. and Lal, B. and Sharif, A.M. (2018) The impact of amino acids on methane hydrate phase boundary and formation kinetics. Journal of Chemical Thermodynamics, 117 . pp. 48-53. http://eprints.utp.edu.my/21789/ |
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The thermodynamic and kinetic effects of two amino acids (valine and arginine) on methane hydrate formation was evaluated by measuring the dissociation temperature of methane hydrate in the range of 4.5�10 MPa using the T-cycle method. The kinetics of methane hydrate formation was evaluated at 7.1 MPa and 274.15 K. The experiments were conducted at concentrations of 0.01 and 0.05 mass fraction. Both amino acids showed a slight inhibition effect on the phase boundary of methane hydrate. The predicted methane hydrate phase boundary data in the presence of amino acids was strongly correlated with the experimental data with R = 0.9996 and an AAE less than 0.15 K. However, these amino acids also showed hydrate formation rate enhancement compared to pure water. In addition, the total methane uptake at the end of the experiments was increased in the presence of these amino acids. © 2017 Elsevier Ltd |
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Article |
author |
Bavoh, C.B. Nashed, O. Khan, M.S. Partoon, B. Lal, B. Sharif, A.M. |
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Bavoh, C.B. Nashed, O. Khan, M.S. Partoon, B. Lal, B. Sharif, A.M. The impact of amino acids on methane hydrate phase boundary and formation kinetics |
author_facet |
Bavoh, C.B. Nashed, O. Khan, M.S. Partoon, B. Lal, B. Sharif, A.M. |
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Bavoh, C.B. |
title |
The impact of amino acids on methane hydrate phase boundary and formation kinetics |
title_short |
The impact of amino acids on methane hydrate phase boundary and formation kinetics |
title_full |
The impact of amino acids on methane hydrate phase boundary and formation kinetics |
title_fullStr |
The impact of amino acids on methane hydrate phase boundary and formation kinetics |
title_full_unstemmed |
The impact of amino acids on methane hydrate phase boundary and formation kinetics |
title_sort |
impact of amino acids on methane hydrate phase boundary and formation kinetics |
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Academic Press |
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2018 |
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https://www.scopus.com/inward/record.uri?eid=2-s2.0-85029215093&doi=10.1016%2fj.jct.2017.09.001&partnerID=40&md5=26af52c911b1229f5b874ad0c81780c7 http://eprints.utp.edu.my/21789/ |
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