Accelerated Methane Hydrate Formation by Ethylene Diamine Tetraacetamide As an Efficient Promoter for Methane Storage without Foam Formation

© 2019 American Chemical Society. Reduction in the induction period of hydrate formation and enhancement of the gas hydrate growth are vital parameters in the application of gas hydrates technique for methane storage. In this work, ethylene diamine tetraacetamide (EDTAM) was developed as a new promo...

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Main Authors: Farhadian A., Varfolomeev M., Abdelhay Z., Emelianov D., Delaunay A., Dalmazzone D.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2019
Subjects:
Methane hydrate
Online Access:https://openrepository.ru/article?id=199461
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spelling ftneicon:oai:rour.neicon.ru:rour/199461 2023-05-15T17:11:29+02:00 Accelerated Methane Hydrate Formation by Ethylene Diamine Tetraacetamide As an Efficient Promoter for Methane Storage without Foam Formation Farhadian A. Varfolomeev M. Abdelhay Z. Emelianov D. Delaunay A. Dalmazzone D. 2019 https://openrepository.ru/article?id=199461 unknown Industrial and Engineering Chemistry Research 19 58 7752 http://rour.neicon.ru:80/xmlui/bitstream/rour/199461/1/nora.pdf 0888-5885 https://openrepository.ru/article?id=199461 SCOPUS08885885-2019-58-19-SID85065569273 Article 2019 ftneicon 2020-07-21T12:06:14Z © 2019 American Chemical Society. Reduction in the induction period of hydrate formation and enhancement of the gas hydrate growth are vital parameters in the application of gas hydrates technique for methane storage. In this work, ethylene diamine tetraacetamide (EDTAM) was developed as a new promoting agent for methane storage. The effect of EDTAM on methane hydrate formation parameters was evaluated by high-pressure micro differential scanning calorimeter (HP-DSC) and high-pressure autoclave cell at 2 °C and 8.0 MPa as the static and dynamic conditions, respectively. The results demonstrated that the onset temperature of methane hydrate formation was increased from -14 °C in the pure water system to -3 °C by adding 0.5 wt % EDTAM. The average conversion of water to hydrate was multiplied by a factor of 20.0 (from 3.2 wt % in pure water to 64.0 wt % in EDTAM solution) due to the presence of 0.5 wt % of EDTAM. Moreover, the EDTAM reduced induction time of methane hydrate formation by a factor of 4 in comparison with pure water in both static (DSC experiments) and dynamic (autoclave experiments) conditions. Also, EDTAM increased considerably the amount of consumed mole of methane, especially during the first stage of hydrate growth. Unlike surfactants, the addition of EDTAM does not induce formation of large amount of foam in the hydrate formation/dissociation process. All obtained results confirmed that the EDTAM is an efficient and prospective promoter for methane hydrate formation. Article in Journal/Newspaper Methane hydrate NORA (National aggregator of open repositories of Russian universities)
institution Open Polar
collection NORA (National aggregator of open repositories of Russian universities)
op_collection_id ftneicon
language unknown
description © 2019 American Chemical Society. Reduction in the induction period of hydrate formation and enhancement of the gas hydrate growth are vital parameters in the application of gas hydrates technique for methane storage. In this work, ethylene diamine tetraacetamide (EDTAM) was developed as a new promoting agent for methane storage. The effect of EDTAM on methane hydrate formation parameters was evaluated by high-pressure micro differential scanning calorimeter (HP-DSC) and high-pressure autoclave cell at 2 °C and 8.0 MPa as the static and dynamic conditions, respectively. The results demonstrated that the onset temperature of methane hydrate formation was increased from -14 °C in the pure water system to -3 °C by adding 0.5 wt % EDTAM. The average conversion of water to hydrate was multiplied by a factor of 20.0 (from 3.2 wt % in pure water to 64.0 wt % in EDTAM solution) due to the presence of 0.5 wt % of EDTAM. Moreover, the EDTAM reduced induction time of methane hydrate formation by a factor of 4 in comparison with pure water in both static (DSC experiments) and dynamic (autoclave experiments) conditions. Also, EDTAM increased considerably the amount of consumed mole of methane, especially during the first stage of hydrate growth. Unlike surfactants, the addition of EDTAM does not induce formation of large amount of foam in the hydrate formation/dissociation process. All obtained results confirmed that the EDTAM is an efficient and prospective promoter for methane hydrate formation.
format Article in Journal/Newspaper
author Farhadian A.
Varfolomeev M.
Abdelhay Z.
Emelianov D.
Delaunay A.
Dalmazzone D.
spellingShingle Farhadian A.
Varfolomeev M.
Abdelhay Z.
Emelianov D.
Delaunay A.
Dalmazzone D.
Accelerated Methane Hydrate Formation by Ethylene Diamine Tetraacetamide As an Efficient Promoter for Methane Storage without Foam Formation
author_facet Farhadian A.
Varfolomeev M.
Abdelhay Z.
Emelianov D.
Delaunay A.
Dalmazzone D.
author_sort Farhadian A.
title Accelerated Methane Hydrate Formation by Ethylene Diamine Tetraacetamide As an Efficient Promoter for Methane Storage without Foam Formation
title_short Accelerated Methane Hydrate Formation by Ethylene Diamine Tetraacetamide As an Efficient Promoter for Methane Storage without Foam Formation
title_full Accelerated Methane Hydrate Formation by Ethylene Diamine Tetraacetamide As an Efficient Promoter for Methane Storage without Foam Formation
title_fullStr Accelerated Methane Hydrate Formation by Ethylene Diamine Tetraacetamide As an Efficient Promoter for Methane Storage without Foam Formation
title_full_unstemmed Accelerated Methane Hydrate Formation by Ethylene Diamine Tetraacetamide As an Efficient Promoter for Methane Storage without Foam Formation
title_sort accelerated methane hydrate formation by ethylene diamine tetraacetamide as an efficient promoter for methane storage without foam formation
publishDate 2019
url https://openrepository.ru/article?id=199461
genre Methane hydrate
genre_facet Methane hydrate
op_source SCOPUS08885885-2019-58-19-SID85065569273
op_relation Industrial and Engineering Chemistry Research
19
58
7752
http://rour.neicon.ru:80/xmlui/bitstream/rour/199461/1/nora.pdf
0888-5885
https://openrepository.ru/article?id=199461
_version_ 1766068276111081472

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