Raman Spectroscopic Study on a CO2-CH4-N2 Mixed-Gas Hydrate System

Raman Spectroscopic Study on a CO2-CH4-N2 Mixed-Gas Hydrate System

Accurate determination of the characteristics of coal mine gas separation products is the key for gas separation applications based on hydrate technology. Gas hydrates are synthesized from gases with two types of compositions (CO2-CH4-N2). The separation products were analyzed by in situ Raman spect...

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Main Authors: Liu Chuanhai, Chen Ran, Zhang Baoyong, Wu Qiang, Zhang Qiang, Gao Xia, Wu Qiong
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-05-01
Series:Frontiers in Energy Research
Subjects:
gas hydrate
Raman spectra
crystal structure
cage occupancy
hydration index
Online Access:https://www.frontiersin.org/articles/10.3389/fenrg.2021.657007/full
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spelling doaj-893827c768ae467f9e25a24783bde4962021-05-26T08:12:56ZengFrontiers Media S.A.Frontiers in Energy Research2296-598X2021-05-01910.3389/fenrg.2021.657007657007Raman Spectroscopic Study on a CO2-CH4-N2 Mixed-Gas Hydrate SystemLiu Chuanhai0Liu Chuanhai1Chen Ran2Chen Ran3Zhang Baoyong4Zhang Baoyong5Wu Qiang6Wu Qiang7Zhang Qiang8Zhang Qiang9Gao Xia10Gao Xia11Wu Qiong12Wu Qiong13Department of Safety Engineering, Heilongjiang University of Science and Technology, Harbin, ChinaNational Central Laboratory of Hydrocarbon Gas Transportation Pipeline Safety, Harbin, ChinaDepartment of Safety Engineering, Heilongjiang University of Science and Technology, Harbin, ChinaNational Central Laboratory of Hydrocarbon Gas Transportation Pipeline Safety, Harbin, ChinaDepartment of Safety Engineering, Heilongjiang University of Science and Technology, Harbin, ChinaNational Central Laboratory of Hydrocarbon Gas Transportation Pipeline Safety, Harbin, ChinaDepartment of Safety Engineering, Heilongjiang University of Science and Technology, Harbin, ChinaNational Central Laboratory of Hydrocarbon Gas Transportation Pipeline Safety, Harbin, ChinaDepartment of Safety Engineering, Heilongjiang University of Science and Technology, Harbin, ChinaNational Central Laboratory of Hydrocarbon Gas Transportation Pipeline Safety, Harbin, ChinaNational Central Laboratory of Hydrocarbon Gas Transportation Pipeline Safety, Harbin, ChinaSchool of Architecture and Civil Engineering, Heilongjiang University of Science and Technology, Harbin, ChinaDepartment of Safety Engineering, Heilongjiang University of Science and Technology, Harbin, ChinaNational Central Laboratory of Hydrocarbon Gas Transportation Pipeline Safety, Harbin, ChinaAccurate determination of the characteristics of coal mine gas separation products is the key for gas separation applications based on hydrate technology. Gas hydrates are synthesized from gases with two types of compositions (CO2-CH4-N2). The separation products were analyzed by in situ Raman spectroscopy. The crystal structure of the mixed-gas hydrate was determined, and the cage occupancy and hydration index were calculated based on the various vibrational modes of the molecules according to the “loose cage-tight cage” model and the Raman band area ratio combined with the van der Waals-Platteeuw model. The results show that the two mixed-gas hydrate samples both have a type I structure. Large cages of mixed-gas hydrate are mostly occupied by guest molecules, with large cage occupancies of 98.57 and 98.52%; however, small cages are not easy to occupy, with small cage occupancies of 29.93 and 33.87%. The average cage occupancies of these two hydrates are 81.41 and 82.36%, and the stability of the crystal structure of the mixed-gas hydrate in the presence of 75% CO2 is better than that of the mixed-gas hydrate in the presence of 70% CO2. The hydration indices of the two hydrate gas samples are 7.14 and 6.98, which are greater than the theoretical value of structure l.https://www.frontiersin.org/articles/10.3389/fenrg.2021.657007/fullgas hydrateRaman spectracrystal structurecage occupancyhydration index
collection DOAJ
language English
format Article
sources DOAJ
author Liu Chuanhai
Liu Chuanhai
Chen Ran
Chen Ran
Zhang Baoyong
Zhang Baoyong
Wu Qiang
Wu Qiang
Zhang Qiang
Zhang Qiang
Gao Xia
Gao Xia
Wu Qiong
Wu Qiong
spellingShingle Liu Chuanhai
Liu Chuanhai
Chen Ran
Chen Ran
Zhang Baoyong
Zhang Baoyong
Wu Qiang
Wu Qiang
Zhang Qiang
Zhang Qiang
Gao Xia
Gao Xia
Wu Qiong
Wu Qiong
Raman Spectroscopic Study on a CO2-CH4-N2 Mixed-Gas Hydrate System
Frontiers in Energy Research
gas hydrate
Raman spectra
crystal structure
cage occupancy
hydration index
author_facet Liu Chuanhai
Liu Chuanhai
Chen Ran
Chen Ran
Zhang Baoyong
Zhang Baoyong
Wu Qiang
Wu Qiang
Zhang Qiang
Zhang Qiang
Gao Xia
Gao Xia
Wu Qiong
Wu Qiong
author_sort Liu Chuanhai
title Raman Spectroscopic Study on a CO2-CH4-N2 Mixed-Gas Hydrate System
title_short Raman Spectroscopic Study on a CO2-CH4-N2 Mixed-Gas Hydrate System
title_full Raman Spectroscopic Study on a CO2-CH4-N2 Mixed-Gas Hydrate System
title_fullStr Raman Spectroscopic Study on a CO2-CH4-N2 Mixed-Gas Hydrate System
title_full_unstemmed Raman Spectroscopic Study on a CO2-CH4-N2 Mixed-Gas Hydrate System
title_sort raman spectroscopic study on a co2-ch4-n2 mixed-gas hydrate system
publisher Frontiers Media S.A.
series Frontiers in Energy Research
issn 2296-598X
publishDate 2021-05-01
description Accurate determination of the characteristics of coal mine gas separation products is the key for gas separation applications based on hydrate technology. Gas hydrates are synthesized from gases with two types of compositions (CO2-CH4-N2). The separation products were analyzed by in situ Raman spectroscopy. The crystal structure of the mixed-gas hydrate was determined, and the cage occupancy and hydration index were calculated based on the various vibrational modes of the molecules according to the “loose cage-tight cage” model and the Raman band area ratio combined with the van der Waals-Platteeuw model. The results show that the two mixed-gas hydrate samples both have a type I structure. Large cages of mixed-gas hydrate are mostly occupied by guest molecules, with large cage occupancies of 98.57 and 98.52%; however, small cages are not easy to occupy, with small cage occupancies of 29.93 and 33.87%. The average cage occupancies of these two hydrates are 81.41 and 82.36%, and the stability of the crystal structure of the mixed-gas hydrate in the presence of 75% CO2 is better than that of the mixed-gas hydrate in the presence of 70% CO2. The hydration indices of the two hydrate gas samples are 7.14 and 6.98, which are greater than the theoretical value of structure l.
topic gas hydrate
Raman spectra
crystal structure
cage occupancy
hydration index
url https://www.frontiersin.org/articles/10.3389/fenrg.2021.657007/full
work_keys_str_mv AT liuchuanhai ramanspectroscopicstudyonaco2ch4n2mixedgashydratesystem
AT liuchuanhai ramanspectroscopicstudyonaco2ch4n2mixedgashydratesystem
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AT gaoxia ramanspectroscopicstudyonaco2ch4n2mixedgashydratesystem
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AT wuqiong ramanspectroscopicstudyonaco2ch4n2mixedgashydratesystem
AT wuqiong ramanspectroscopicstudyonaco2ch4n2mixedgashydratesystem
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