Journal of Physical Chemistry C

, volume 120 , issue 48 , pages 27159-27172

Fluid Composition and Kinetics of the in Situ Replacement in CH₄–CO₂ Hydrate System

Andrzej Falenty ¹

J. Qin ¹

Andrey N. Salamatin ²

Yanghui Li ^{1, 3}

W. F. Kuhs ¹

Hide authors affiliations Show authors affiliations: 3 affiliations

GZG Abt. Kristallographie, Georg-August-Universität Göttingen, 37077 Göttingen, Germany |

Department of Applied Mathematics, Kazan (Volga Region) Federal University, 420008 Kazan, Russia |

Key Laboratory of Ocean Energy Utilization and Energy Conservation of Ministry of Education, Dalian University of Technology, Dalian, China |

Publication type: Journal Article

Publication date: 2016-11-28

American Chemical Society (ACS)

Journal of Physical Chemistry C

scimago Q1

wos Q3

SJR: 0.914

CiteScore: 6.2

Impact factor: 3.2

ISSN: 19327447, 19327455

DOI: 10.1021/acs.jpcc.6b09460

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Surfaces, Coatings and Films

Electronic, Optical and Magnetic Materials

Physical and Theoretical Chemistry

General Energy

Abstract

The exchange process between CO2 and methane hydrate has been observed in numerous laboratory experiments, computer simulations, and recently confirmed in a field test. Yet, to date there is no kinetic model capable of accurately predicting the swapping process at given fluid composition and p-T conditions. Major obstacles on the way to an adequate mathematical description are caused by the insufficient characterization of experimental environments and a nearly complete lack of information on the time-resolved composition of the two-phase fluid at the gas hydrate interface. Here we show that all necessary data can be provided by a combination of cryo-SEM, Raman, and neutron diffraction measurements that deliver accurate space-averaged, time-resolved in situ data on the CH4–CO2 exchange reactions at conditions relevant to sedimentary matrixes of continental margins. Results from diffraction are cross-correlated with ex situ Raman spectroscopy to provide reliable information on the preferential sites for CO...

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1 citation

Rojas-Zuniga Abraham

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PhD in Engineering

2 publications, 17 citations

Computational Simulation

Corrosion Engineering

Oil and Gas

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GOST |

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GOST Copy

Falenty A. et al. Fluid Composition and Kinetics of the in Situ Replacement in CH4–CO2 Hydrate System // Journal of Physical Chemistry C. 2016. Vol. 120. No. 48. pp. 27159-27172.

GOST all authors (up to 50) Copy

Falenty A., Qin J., Salamatin A. N., Li Y., Kuhs W. F. Fluid Composition and Kinetics of the in Situ Replacement in CH4–CO2 Hydrate System // Journal of Physical Chemistry C. 2016. Vol. 120. No. 48. pp. 27159-27172.

RIS |

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RIS Copy

TY - JOUR

DO - 10.1021/acs.jpcc.6b09460

UR - https://doi.org/10.1021/acs.jpcc.6b09460

TI - Fluid Composition and Kinetics of the in Situ Replacement in CH4–CO2 Hydrate System

T2 - Journal of Physical Chemistry C

AU - Falenty, Andrzej

AU - Qin, J.

AU - Salamatin, Andrey N.

AU - Li, Yanghui

AU - Kuhs, W. F.

PY - 2016

DA - 2016/11/28

PB - American Chemical Society (ACS)

SP - 27159-27172

IS - 48

VL - 120

SN - 1932-7447

SN - 1932-7455

ER -

BibTex |

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BibTex (up to 50 authors) Copy

@article{2016_Falenty,

author = {Andrzej Falenty and J. Qin and Andrey N. Salamatin and Yanghui Li and W. F. Kuhs},

title = {Fluid Composition and Kinetics of the in Situ Replacement in CH4–CO2 Hydrate System},

journal = {Journal of Physical Chemistry C},

year = {2016},

volume = {120},

publisher = {American Chemical Society (ACS)},

month = {nov},

url = {https://doi.org/10.1021/acs.jpcc.6b09460},

number = {48},

pages = {27159--27172},

doi = {10.1021/acs.jpcc.6b09460}

}

MLA

Cite this

MLA Copy

Falenty, Andrzej, et al. “Fluid Composition and Kinetics of the in Situ Replacement in CH4–CO2 Hydrate System.” Journal of Physical Chemistry C, vol. 120, no. 48, Nov. 2016, pp. 27159-27172. https://doi.org/10.1021/acs.jpcc.6b09460.

Publisher

American Chemical Society (ACS)

Journal

Journal of Physical Chemistry C

scimago Q1

wos Q3

SJR

0.914

CiteScore

6.2

Impact factor

3.2

ISSN

19327447 (Print)

19327455 (Electronic)