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Visual Studies of Methane Hydrate Formation on the Water-Oil Boundaries. / Adamova, Tatyana P.; Stoporev, Andrey S.; Manakov, Andrey Yu.

In: Crystal Growth and Design, Vol. 18, No. 11, 07.11.2018, p. 6713-6722.

Research output: Contribution to journalArticlepeer-review

Harvard

Adamova, TP, Stoporev, AS & Manakov, AY 2018, 'Visual Studies of Methane Hydrate Formation on the Water-Oil Boundaries', Crystal Growth and Design, vol. 18, no. 11, pp. 6713-6722. https://doi.org/10.1021/acs.cgd.8b00986

APA

Adamova, T. P., Stoporev, A. S., & Manakov, A. Y. (2018). Visual Studies of Methane Hydrate Formation on the Water-Oil Boundaries. Crystal Growth and Design, 18(11), 6713-6722. https://doi.org/10.1021/acs.cgd.8b00986

Vancouver

Adamova TP, Stoporev AS, Manakov AY. Visual Studies of Methane Hydrate Formation on the Water-Oil Boundaries. Crystal Growth and Design. 2018 Nov 7;18(11):6713-6722. doi: 10.1021/acs.cgd.8b00986

Author

Adamova, Tatyana P. ; Stoporev, Andrey S. ; Manakov, Andrey Yu. / Visual Studies of Methane Hydrate Formation on the Water-Oil Boundaries. In: Crystal Growth and Design. 2018 ; Vol. 18, No. 11. pp. 6713-6722.

BibTeX

@article{b596deb8f7544111a4b0b4c5cd62f3fc,
title = "Visual Studies of Methane Hydrate Formation on the Water-Oil Boundaries",
abstract = "Visual studies of the growth of methane hydrate at the interface of water with three kinds of methane-saturated crude oils were performed at supercooling ∼20 °C. The results were compared with the growth of methane hydrate at the interfaces of water-methane and water-methane-saturated decane or toluene. The average rates of hydrate film growth measured for the water-oil interfaces vary within the range of 0.8-1.0 mm s-1, which is somewhat lower than the average growth rate at the water-methane and water-decane (toluene) interfaces (1.6 mm s-1). It was found that in some cases hydrate nucleation proceeded not on the water-oil boundary but at the walls of the cell. Spontaneous intrusion of oil formations (drops, serpentlike formations) into the aqueous phase was observed in some experiments. These formations are likely to originate from oil catching by the bundles of needlelike hydrate crystals due to the capillary effect. Intense growth of the hydrate on the walls of the cell was observed for two kinds of crude oils. It was demonstrated that one of the factors blocking hydrate growth on the cell walls may be the presence of naphthenic acids (natural surface-active substances) in the oil phase.",
keywords = "CLATHRATE-HYDRATE, CRYSTAL-GROWTH, LIQUID WATER, FILM GROWTH, NATURAL-GAS, MORPHOLOGY, INTERFACE, NUCLEATION, DROPLETS, SURFACE",
author = "Adamova, {Tatyana P.} and Stoporev, {Andrey S.} and Manakov, {Andrey Yu}",
year = "2018",
month = nov,
day = "7",
doi = "10.1021/acs.cgd.8b00986",
language = "English",
volume = "18",
pages = "6713--6722",
journal = "Crystal Growth and Design",
issn = "1528-7483",
publisher = "American Chemical Society",
number = "11",

}

RIS

TY - JOUR

T1 - Visual Studies of Methane Hydrate Formation on the Water-Oil Boundaries

AU - Adamova, Tatyana P.

AU - Stoporev, Andrey S.

AU - Manakov, Andrey Yu

PY - 2018/11/7

Y1 - 2018/11/7

N2 - Visual studies of the growth of methane hydrate at the interface of water with three kinds of methane-saturated crude oils were performed at supercooling ∼20 °C. The results were compared with the growth of methane hydrate at the interfaces of water-methane and water-methane-saturated decane or toluene. The average rates of hydrate film growth measured for the water-oil interfaces vary within the range of 0.8-1.0 mm s-1, which is somewhat lower than the average growth rate at the water-methane and water-decane (toluene) interfaces (1.6 mm s-1). It was found that in some cases hydrate nucleation proceeded not on the water-oil boundary but at the walls of the cell. Spontaneous intrusion of oil formations (drops, serpentlike formations) into the aqueous phase was observed in some experiments. These formations are likely to originate from oil catching by the bundles of needlelike hydrate crystals due to the capillary effect. Intense growth of the hydrate on the walls of the cell was observed for two kinds of crude oils. It was demonstrated that one of the factors blocking hydrate growth on the cell walls may be the presence of naphthenic acids (natural surface-active substances) in the oil phase.

AB - Visual studies of the growth of methane hydrate at the interface of water with three kinds of methane-saturated crude oils were performed at supercooling ∼20 °C. The results were compared with the growth of methane hydrate at the interfaces of water-methane and water-methane-saturated decane or toluene. The average rates of hydrate film growth measured for the water-oil interfaces vary within the range of 0.8-1.0 mm s-1, which is somewhat lower than the average growth rate at the water-methane and water-decane (toluene) interfaces (1.6 mm s-1). It was found that in some cases hydrate nucleation proceeded not on the water-oil boundary but at the walls of the cell. Spontaneous intrusion of oil formations (drops, serpentlike formations) into the aqueous phase was observed in some experiments. These formations are likely to originate from oil catching by the bundles of needlelike hydrate crystals due to the capillary effect. Intense growth of the hydrate on the walls of the cell was observed for two kinds of crude oils. It was demonstrated that one of the factors blocking hydrate growth on the cell walls may be the presence of naphthenic acids (natural surface-active substances) in the oil phase.

KW - CLATHRATE-HYDRATE

KW - CRYSTAL-GROWTH

KW - LIQUID WATER

KW - FILM GROWTH

KW - NATURAL-GAS

KW - MORPHOLOGY

KW - INTERFACE

KW - NUCLEATION

KW - DROPLETS

KW - SURFACE

UR - http://www.scopus.com/inward/record.url?scp=85054654728&partnerID=8YFLogxK

U2 - 10.1021/acs.cgd.8b00986

DO - 10.1021/acs.cgd.8b00986

M3 - Article

AN - SCOPUS:85054654728

VL - 18

SP - 6713

EP - 6722

JO - Crystal Growth and Design

JF - Crystal Growth and Design

SN - 1528-7483

IS - 11

ER -

ID: 17088613