Characterization of CO2 Storage by Clathrate Hydrate Crystallization

被引:0
|
作者
Liu, Ni [1 ]
Xuan, Xiaobo [1 ]
Li, Ju [1 ]
Liu, Daoping [1 ]
Xie, Yingming [1 ]
Qi, Yingxia [1 ]
机构
[1] Shanghai Univ Sci & Technol, Sch Energy & Power Engn, Shanghai 201800, Peoples R China
来源
MATERIALS SCIENCE AND INFORMATION TECHNOLOGY, PTS 1-8 | 2012年 / 433-440卷
关键词
CO2; hydrate; induction time; supercooling degree; overpressure;
D O I
10.4028/www.scientific.net/AMR.433-440.1260
中图分类号
TP39 [计算机的应用];
学科分类号
081203 ; 0835 ;
摘要
A potential way of CO2 capture and storage by hydrates is proposed in this paper. The characteristics of hydrate formation is investigated in a small scale dynamic reactor under high pressure conditions from 2-3.5Mpa. Temperature varied between 0.5-4 degrees C. The effect of supercooling degree and overpressure on hydrates formation were discussed. Hydrates formation can be completely finished within 150min and the final pressure-temperature points of system are just on the hydrates equilibrium curve. The induction time increasing with the decreasing of supercooling degree and increase of pressure. It is less than 40min under the experiment conditions.
引用
收藏
页码:1260 / 1264
页数:5
相关论文
共 50 条
  • [21] Measurement of clathrate hydrate precipitation from CO2 solution by a nondestructive method
    Song, YC
    Chen, BX
    Nishio, M
    Akai, M
    AMERICAN MINERALOGIST, 2004, 89 (8-9) : 1247 - 1253
  • [22] Partitioning photochemically formed CO2 into clathrate hydrate under interstellar conditions
    Vishwakarma, Gaurav
    Malla, Bijesh K.
    Kumar, Rajnish
    Pradeep, Thalappil
    PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 2024, 26 (22) : 16008 - 16016
  • [23] Transformation of hydrogen bond network during CO2 clathrate hydrate dissociation
    Gets, Kirill
    Belosludov, Vladimir
    Zhdanov, Ravil
    Bozhko, Yulia
    Belosludov, Rodion
    Subbotin, Oleg
    Marasanov, Nikita
    Kawazoe, Yoshiyuki
    APPLIED SURFACE SCIENCE, 2020, 499 (499)
  • [24] Replacing methane with CO2 in clathrate hydrate:: Observations using Raman spectroscopy
    Uchida, T
    Takeya, S
    Ebinuma, T
    Narita, H
    GREENHOUSE GAS CONTROL TECHNOLOGIES, 2001, : 523 - 527
  • [25] FAR-INFRARED SPECTROSCOPY OF CO2 CLATHRATE HYDRATE WITH MARTIAN APPLICATIONS
    LANDRY, JC
    ENGLAND, AW
    GEOPHYSICAL RESEARCH LETTERS, 1994, 21 (25) : 2829 - 2832
  • [26] CO2 processing and hydration of fruit and vegetable tissues by clathrate hydrate formation
    Takeya, Satoshi
    Nakano, Kohei
    Thammawong, Manasikan
    Umeda, Hiroki
    Yoneyama, Akio
    Takeda, Tohoru
    Hyodo, Kazuyuki
    Matsuo, Seiji
    FOOD CHEMISTRY, 2016, 205 : 122 - 128
  • [27] Effects of Occupation of the Cages on Thermodynamic Stability of sI CO2 Clathrate Hydrate
    Qi, Yingxai
    Zhang, Hua
    Zhao, Shengxi
    MANUFACTURING SCIENCE AND TECHNOLOGY, PTS 1-3, 2011, 295-297 : 1505 - 1509
  • [28] Storage of CO2 as hydrate in depleted gas reservoirs
    Zatsepino, Olga Ye
    Pooladi-Darvish, Mehran
    SPE Reservoir Evaluation and Engineering, 2012, 15 (01): : 98 - 108
  • [29] Storage of CO2 as hydrate beneath the ocean floor
    Qanbari, Farhad
    Pooladi-Darvish, Mehran
    Tabatabaie, S. Hamed
    Gerami, Shahab
    10TH INTERNATIONAL CONFERENCE ON GREENHOUSE GAS CONTROL TECHNOLOGIES, 2011, 4 : 3997 - 4004
  • [30] Storage of CO2 as Hydrate in Depleted Gas Reservoirs
    Zatsepina, Olga Ye.
    Pooladi-Darvish, Mehran
    SPE RESERVOIR EVALUATION & ENGINEERING, 2012, 15 (01) : 98 - 108
12345