Mean induction time and isothermal kinetic analysis of methane hydrate formation in water and imidazolium based ionic liquid solutions

In this work, the performance of nine ionic liquids (ILs) as kinetic inhibitors for methane gas hydrates is investigated employing a high pressure micro differential scanning calorimeter (HPμDSC). Aqueous IL solutions of 0.01mass fraction, as well as poly vinyl pyrrolidone (PVP), are prepared and th...

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Main Authors: Nashed, Omar, M. Sabil, Khalik, Ismail, Lukman, Japper-Jaafar, Azuraien, Lal, Bhajan
Format: Text
Language:unknown
Published: Elsevier 2018
Subjects:
The Needle
Methane hydrate
Online Access:http://discol.umk.edu.my/id/eprint/7323/
https://www.sciencedirect.com/science/article/pii/S0021961417303324
id ftunimalaysiakel:oai:discol.umk.edu.my:7323
record_format openpolar
spelling ftunimalaysiakel:oai:discol.umk.edu.my:7323 2023-06-06T11:56:28+02:00 Mean induction time and isothermal kinetic analysis of methane hydrate formation in water and imidazolium based ionic liquid solutions Nashed, Omar M. Sabil, Khalik Ismail, Lukman Japper-Jaafar, Azuraien Lal, Bhajan 2018-02 http://discol.umk.edu.my/id/eprint/7323/ https://www.sciencedirect.com/science/article/pii/S0021961417303324 unknown Elsevier Nashed, Omar and M. Sabil, Khalik and Ismail, Lukman and Japper-Jaafar, Azuraien and Lal, Bhajan (2018) Mean induction time and isothermal kinetic analysis of methane hydrate formation in water and imidazolium based ionic liquid solutions. The Journal of Chemical Thermodynamics, 117. pp. 147-154. ISSN 0021-9614 Indexed Article NonPeerReviewed 2018 ftunimalaysiakel 2023-04-17T09:54:39Z In this work, the performance of nine ionic liquids (ILs) as kinetic inhibitors for methane gas hydrates is investigated employing a high pressure micro differential scanning calorimeter (HPμDSC). Aqueous IL solutions of 0.01mass fraction, as well as poly vinyl pyrrolidone (PVP), are prepared and the induction time of methane hydrate formation in these solutions is measured at 7.1MPa and 258.15K. It is found that [BMIM][CF3SO3], [BMIM][CH3SO4], and [OH-EMIM][Br] can delay hydrate formation at this concentration. Their relative inhibition power (RIP) are higher than PVP. The other ILs exhibit shorter induction time when compare with the blank sample, which shows their promotional effect rather than inhibition effect. It is found that there is a strong correlation between molar mass of [BMIM]+ based ILs and induction time. An attempt to model the kinetic of methane hydrate formation in the presence of low dosage ILs has been carried out using Avrami model by utilizing isothermal hydrate crystallization data. The kinetic analysis shows the needle like the shape of the nuclei and the one dimensional crystal growth during the methane hydrate formation. The Avrami analysis also indicates that most of the crystallization process of methane hydrate is governed by the enclathration reaction and slightly leads by the diffusion-controlled mechanism. Text Methane hydrate UMK Repository (Universiti Malaysia Kelantan Institutional Repository - UMKIR) The Needle ENVELOPE(-64.047,-64.047,63.267,63.267)
institution Open Polar
collection UMK Repository (Universiti Malaysia Kelantan Institutional Repository - UMKIR)
op_collection_id ftunimalaysiakel
language unknown
description In this work, the performance of nine ionic liquids (ILs) as kinetic inhibitors for methane gas hydrates is investigated employing a high pressure micro differential scanning calorimeter (HPμDSC). Aqueous IL solutions of 0.01mass fraction, as well as poly vinyl pyrrolidone (PVP), are prepared and the induction time of methane hydrate formation in these solutions is measured at 7.1MPa and 258.15K. It is found that [BMIM][CF3SO3], [BMIM][CH3SO4], and [OH-EMIM][Br] can delay hydrate formation at this concentration. Their relative inhibition power (RIP) are higher than PVP. The other ILs exhibit shorter induction time when compare with the blank sample, which shows their promotional effect rather than inhibition effect. It is found that there is a strong correlation between molar mass of [BMIM]+ based ILs and induction time. An attempt to model the kinetic of methane hydrate formation in the presence of low dosage ILs has been carried out using Avrami model by utilizing isothermal hydrate crystallization data. The kinetic analysis shows the needle like the shape of the nuclei and the one dimensional crystal growth during the methane hydrate formation. The Avrami analysis also indicates that most of the crystallization process of methane hydrate is governed by the enclathration reaction and slightly leads by the diffusion-controlled mechanism.
format Text
author Nashed, Omar
M. Sabil, Khalik
Ismail, Lukman
Japper-Jaafar, Azuraien
Lal, Bhajan
spellingShingle Nashed, Omar
M. Sabil, Khalik
Ismail, Lukman
Japper-Jaafar, Azuraien
Lal, Bhajan
Mean induction time and isothermal kinetic analysis of methane hydrate formation in water and imidazolium based ionic liquid solutions
author_facet Nashed, Omar
M. Sabil, Khalik
Ismail, Lukman
Japper-Jaafar, Azuraien
Lal, Bhajan
author_sort Nashed, Omar
title Mean induction time and isothermal kinetic analysis of methane hydrate formation in water and imidazolium based ionic liquid solutions
title_short Mean induction time and isothermal kinetic analysis of methane hydrate formation in water and imidazolium based ionic liquid solutions
title_full Mean induction time and isothermal kinetic analysis of methane hydrate formation in water and imidazolium based ionic liquid solutions
title_fullStr Mean induction time and isothermal kinetic analysis of methane hydrate formation in water and imidazolium based ionic liquid solutions
title_full_unstemmed Mean induction time and isothermal kinetic analysis of methane hydrate formation in water and imidazolium based ionic liquid solutions
title_sort mean induction time and isothermal kinetic analysis of methane hydrate formation in water and imidazolium based ionic liquid solutions
publisher Elsevier
publishDate 2018
url http://discol.umk.edu.my/id/eprint/7323/
https://www.sciencedirect.com/science/article/pii/S0021961417303324
long_lat ENVELOPE(-64.047,-64.047,63.267,63.267)
geographic The Needle
geographic_facet The Needle
genre Methane hydrate
genre_facet Methane hydrate
op_relation Nashed, Omar and M. Sabil, Khalik and Ismail, Lukman and Japper-Jaafar, Azuraien and Lal, Bhajan (2018) Mean induction time and isothermal kinetic analysis of methane hydrate formation in water and imidazolium based ionic liquid solutions. The Journal of Chemical Thermodynamics, 117. pp. 147-154. ISSN 0021-9614
_version_ 1767963907884843008

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