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中国科学院广州能源研究所机构知识库
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The Effect of CO2 Partial Pressure on CH4 Recovery in CH4-CO2 Swap with Simulated IGCC Syngas
期刊论文
ENERGIES, 2020, 卷号: 13, 期号: 5, 页码: 11
Authors:
Ding, Ya-Long
;
Wang, Hua-Qin
;
Xu, Chun-Gang
;
Li, Xiao-Sen
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Submit date:2020/10/29
CH4 hydrate
replacement
IGCC syngas
in-situ Raman
Effect of pressure on methane recovery from natural gas hydrates by methane-carbon dioxide replacement
期刊论文
APPLIED ENERGY, 2018, 卷号: 217, 页码: 527-536
Authors:
Xu, Chun-Gang
;
Cai, Jing
;
Yu, Yi-Song
;
Yan, Ke-Feng
;
Li, Xiao-Sen
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Submit date:2020/10/29
CH4 hydrate
Replacement
CO2
In-situ Raman
Research on micro-mechanism and efficiency of CH4 exploitation via CH4-CO2 replacement from natural gas hydrates
期刊论文
FUEL, 2018, 卷号: 216, 页码: 255-265
Authors:
Xu, Chun-Gang
;
Cai, Jing
;
Yu, Yi-Song
;
Chen, Zhao-Yang
;
Li, Xiao-Sen
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Submit date:2020/10/29
CH4 exploitation
CH4-CO2 replacement
Natural gas hydrate (NGH)
In situ Raman
FTIR
Methane recovery from natural gas hydrate with simulated IGCC syngas
期刊论文
ENERGY, 2017, 卷号: 120, 页码: 192-198
Authors:
Ding, Ya-Long
;
Xu, Chun-Gang
;
Yu, Yi-Song
;
Li, Xiao-Sen
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Submit date:2017/10/13
Ch4 Hydrate
Replacement
Igcc Syngas
Raman
Raman analysis on methane production from natural gas hydrate by carbon dioxide-methane replacement
期刊论文
ENERGY, 2015, 卷号: 79, 页码: 111-116
Authors:
Xu, Chun-Gang
;
Cai, Jing
;
Lin, Fu-hua
;
Chen, Zhao-Yang
;
Li, Xiao-Sen
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Submit date:2016/11/03
Raman
Co2 Replacement
Ngh (Natural Gas Hydrate)
Ch4 Production
Replacement of CH4 in Hydrate in Porous Sediments with Liquid CO2 Injection
期刊论文
CHEMICAL ENGINEERING & TECHNOLOGY, 2014, 卷号: 37, 期号: 12, 页码: 2022-2029
Authors:
Zhang, Yu
;
Xiong, Li-Jun
;
Li, Xiao-Sen
;
Chen, Zhao-Yang
;
Xu, Chun-Gang
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Submit date:2016/11/03
Ch4 Hydrate
Ch4 Replacement
Liquid Co2
Porous Sediment
Replacement of methane from quartz sand-bearing hydrate with carbon dioxide-in-water emulsion
期刊论文
ENERGY & FUELS, 2008, 卷号: 22, 期号: 3, 页码: 1759-1764
Authors:
Zhou, Xitang
;
Fan, Shuanshi
;
Liang, Deqing
;
Du, Jianwei
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Submit date:2010/09/23
The Replacement Of Ch4 From Its Hydrate In Quartz Sand With 90:10
70:30
And 50:50 (W-Co2:W-h2o) Carbon Dioxide-In-water (C/w) Emulsions And Liquid Co2 Has Been PerFormed In a Cell With Size Of Empty Set 36 x 200 Mm. The Above Emulsions Were Formed In a New Emulsifier
In Which The Temperature And Pressure Were 285.2 k And 30 Mpa
Respectively
And TH. Emulsions Were Stable For 7-12 H. TH. Results Of Replacing sH.wed tH.t 13.1-27.1%
14.1-25.5%
And 14.6-24.3% Of Ch4 Had Been Displaced From Its Hydrate WIth The Above Emulsions After 24-96 It Of Replacement
Corresponding To About 1.5 Times The Ch4 Replaced With High-pressure Liquid Co2. The Results Also Showed That The Replacement Rate Of Ch4 With The Above Emulsions And Liquid Co2.Decreased From 0.543
0.587
0.608
And 0.348 1/h To 0.083
0.077
0.069
And 0.063 1/H.WItH.TH. Replacement Time Increased From 24 To 96 H. It H.s Been Indicated By tH.s Study tH.t TH. Use Of Co2 Emulsions Is Advantageous Compared To TH. Use Of Liquid Co2 In replacIng cH. From Its H.drate.
CO2置换开采天然气水合物研究进展
期刊论文
化工进展, 2006, 卷号: 25, 期号: 5, 页码: 524-527
Authors:
周锡堂
;
樊栓狮
;
梁德青
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Submit date:2009/12/09
Co2
Ch4
天然气水合物
置换开采
Co2
Ch4
Natural Gashydrate
Replacement Exploitation